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islandflow/apps/web/app/terminal.tsx
dirtydishes 2bf0de0a9c Add Islandflow logo to terminal branding 
- Replace the text kicker with the new Islandflow mark
- Add the shared SVG icon asset for the app shell
2026-04-27 14:37:27 -04:00

4599 lines
141 KiB
TypeScript
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"use client";
import Link from "next/link";
import { usePathname } from "next/navigation";
import {
createContext,
useCallback,
useContext,
useEffect,
useLayoutEffect,
useMemo,
useRef,
useState,
type ReactNode
} from "react";
import type {
AlertEvent,
ClassifierHitEvent,
Cursor,
EquityCandle,
EquityPrint,
EquityPrintJoin,
FlowPacket,
InferredDarkEvent,
LiveServerMessage,
LiveSubscription,
OptionNBBO,
OptionPrint
} from "@islandflow/types";
import { createChart, type IChartApi, type SeriesMarker, type UTCTimestamp } from "lightweight-charts";
const MAX_ITEMS = 500;
const NBBO_MAX_AGE_MS = Number(process.env.NEXT_PUBLIC_NBBO_MAX_AGE_MS);
const NBBO_MAX_AGE_MS_SAFE =
Number.isFinite(NBBO_MAX_AGE_MS) && NBBO_MAX_AGE_MS > 0 ? NBBO_MAX_AGE_MS : 1000;
const LOCAL_HOSTS = new Set(["localhost", "127.0.0.1"]);
const CANDLE_INTERVALS = [
{ label: "1m", ms: 60000 },
{ label: "5m", ms: 300000 }
];
const IslandflowLogo = ({ className }: { className?: string }) => {
return (
<svg
aria-hidden="true"
className={className}
viewBox="0 0 64 64"
xmlns="http://www.w3.org/2000/svg"
fill="none"
>
<path
d="M20.5 22C22.7 17.7 26.9 14.7 32.1 14.1C28.8 17.5 27.7 21.6 28.2 25.9C25.2 24.9 22.7 23.6 20.5 22Z"
fill="currentColor"
/>
<path
d="M30.6 13.4C36.2 11.7 42.2 13 46.6 16.8C41.5 17.2 37.8 19.1 34.7 22.2C33.6 18.9 32.2 16 30.6 13.4Z"
fill="currentColor"
/>
<path
d="M32.9 13.9C38.5 12.5 44.5 14 48.7 18C43.6 18.2 39.7 20 36.4 23.1C35.4 19.8 34.2 16.7 32.9 13.9Z"
fill="currentColor"
/>
<path
d="M31.4 23.8C35.3 26.9 36.9 31.4 36.3 36.3C32.9 33.1 29.1 31.4 24.4 30.9C26.1 27.7 28.4 25.3 31.4 23.8Z"
fill="currentColor"
/>
<path
d="M32.5 23.2C36.9 25.5 39.8 29.6 40.6 34.7C36.3 32.2 31.9 31.3 27 31.7C28 28 29.8 25.2 32.5 23.2Z"
fill="currentColor"
/>
<path
d="M31.9 23.2C30.8 28.5 29.3 33.6 27.5 38.5C27.3 39 26.8 39.2 26.2 39C25.7 38.8 25.4 38.2 25.6 37.7C27.4 32.9 28.8 27.9 29.9 22.8L31.9 23.2Z"
fill="currentColor"
/>
<path
d="M14 47.2C17.9 43.7 23.1 41.9 28.7 42.4C36.2 43.1 43.6 42.2 50.1 39.8C47.9 45.7 42.3 50 35.7 50H20.2C17.9 50 15.7 49 14 47.2Z"
fill="currentColor"
/>
<path
d="M8 53.3C14.4 50.4 21.5 49.7 28.3 51.3C35.7 52.9 43.5 52.2 50.4 49.2L56 46.7V51.8L51.7 53.7C44.2 57 35.6 57.8 27.5 56C20.3 54.4 12.7 55.1 6 58V53.9L8 53.3Z"
fill="currentColor"
/>
</svg>
);
};
type CandlestickSeries = ReturnType<IChartApi["addCandlestickSeries"]>;
type EquityOverlayPoint = {
ts: number;
price: number;
size: number;
offExchangeFlag: boolean;
};
type ChartCandle = {
time: UTCTimestamp;
open: number;
high: number;
low: number;
close: number;
};
const formatIntervalLabel = (intervalMs: number): string => {
const match = CANDLE_INTERVALS.find((interval) => interval.ms === intervalMs);
if (match) {
return match.label;
}
if (intervalMs >= 60000) {
return `${Math.round(intervalMs / 60000)}m`;
}
if (intervalMs >= 1000) {
return `${Math.round(intervalMs / 1000)}s`;
}
return `${intervalMs}ms`;
};
const toChartTime = (ts: number): UTCTimestamp => {
return Math.floor(ts / 1000) as UTCTimestamp;
};
type ChartTimeLike = number | string | { year: number; month: number; day: number };
const chartTimeToMs = (value: ChartTimeLike): number | null => {
if (typeof value === "number") {
return Math.floor(value * 1000);
}
if (typeof value === "string") {
const parsed = Date.parse(value);
return Number.isFinite(parsed) ? parsed : null;
}
if (value && typeof value === "object") {
const { year, month, day } = value;
if (
Number.isFinite(year) &&
Number.isFinite(month) &&
Number.isFinite(day) &&
year >= 1970 &&
month >= 1 &&
month <= 12 &&
day >= 1 &&
day <= 31
) {
return Date.UTC(year, month - 1, day);
}
}
return null;
};
const toChartCandle = (candle: EquityCandle): ChartCandle => {
return {
time: toChartTime(candle.ts),
open: candle.open,
high: candle.high,
low: candle.low,
close: candle.close
};
};
const clamp = (value: number, min: number, max: number): number => {
if (!Number.isFinite(value)) {
return min;
}
return Math.max(min, Math.min(max, value));
};
const sampleToLimit = <T,>(items: T[], limit: number): T[] => {
if (items.length <= limit) {
return items;
}
const safeLimit = Math.max(1, Math.floor(limit));
const step = Math.ceil(items.length / safeLimit);
const sampled: T[] = [];
for (let idx = 0; idx < items.length; idx += step) {
sampled.push(items[idx]);
}
return sampled;
};
const readErrorDetail = async (response: Response): Promise<string> => {
const text = await response.text();
if (!text) {
return "";
}
try {
const payload = JSON.parse(text) as {
detail?: string;
error?: string;
message?: string;
};
return payload.detail ?? payload.error ?? payload.message ?? text;
} catch {
return text;
}
};
type WsStatus = "connecting" | "connected" | "disconnected";
type TapeMode = "live" | "replay";
type MessageType =
| "option-print"
| "option-nbbo"
| "equity-print"
| "equity-candle"
| "equity-join"
| "flow-packet"
| "inferred-dark"
| "classifier-hit"
| "alert";
type StreamMessage<T> = {
type: MessageType;
payload: T;
};
type ReplayCursor = {
ts: number;
seq: number;
};
type ReplayResponse<T> = {
data: T[];
next: ReplayCursor | null;
};
const inferTracePrefix = (traceId: string): string => {
const match = traceId.match(/^(.*)-\d+$/);
return match ? match[1] : traceId;
};
const extractTracePrefix = <T,>(item: T): string | null => {
const traceId = (item as { trace_id?: string }).trace_id;
if (!traceId) {
return null;
}
return inferTracePrefix(traceId);
};
const extractReplaySource = <T,>(item: T): string | null => {
const prefix = extractTracePrefix(item);
if (!prefix) {
return null;
}
const normalized = prefix.toLowerCase();
if (normalized.startsWith("synthetic")) {
return "synthetic";
}
if (normalized.startsWith("databento")) {
return "databento";
}
if (normalized.startsWith("alpaca")) {
return "alpaca";
}
if (normalized.startsWith("ibkr")) {
return "ibkr";
}
return prefix;
};
type SortableItem = {
ts?: number;
source_ts?: number;
ingest_ts?: number;
seq?: number;
trace_id?: string;
id?: string;
};
const extractSortTs = (item: SortableItem): number =>
item.ts ?? item.source_ts ?? item.ingest_ts ?? 0;
const extractSortSeq = (item: SortableItem): number => item.seq ?? 0;
const buildItemKey = (item: SortableItem): string | null => {
if (item.trace_id) {
return `${item.trace_id}:${item.seq ?? ""}`;
}
if (item.id) {
return `id:${item.id}`;
}
return null;
};
const mergeNewest = <T extends SortableItem>(incoming: T[], existing: T[]): T[] => {
const combined = [...incoming, ...existing];
if (combined.length === 0) {
return combined;
}
const seen = new Set<string>();
const deduped: T[] = [];
for (const item of combined) {
const key = buildItemKey(item);
if (key) {
if (seen.has(key)) {
continue;
}
seen.add(key);
}
deduped.push(item);
}
deduped.sort((a, b) => {
const delta = extractSortTs(b) - extractSortTs(a);
if (delta !== 0) {
return delta;
}
return extractSortSeq(b) - extractSortSeq(a);
});
return deduped.slice(0, MAX_ITEMS);
};
type TapeState<T> = {
status: WsStatus;
items: T[];
lastUpdate: number | null;
replayTime: number | null;
replayComplete: boolean;
paused: boolean;
dropped: number;
togglePause: () => void;
};
const buildWsUrl = (path: string): string => {
const envBase = process.env.NEXT_PUBLIC_API_URL;
if (envBase) {
const url = new URL(envBase);
url.protocol = url.protocol === "https:" ? "wss:" : "ws:";
url.pathname = path;
url.search = "";
url.hash = "";
return url.toString();
}
const { protocol, hostname } = window.location;
const wsProtocol = protocol === "https:" ? "wss" : "ws";
const isLocal = LOCAL_HOSTS.has(hostname);
const host = isLocal ? `${hostname}:4000` : window.location.host;
return `${wsProtocol}://${host}${path}`;
};
const buildApiUrl = (path: string): string => {
const envBase = process.env.NEXT_PUBLIC_API_URL;
if (envBase) {
const url = new URL(envBase);
const secure = url.protocol === "https:" || url.protocol === "wss:";
url.protocol = secure ? "https:" : "http:";
url.pathname = path;
url.search = "";
url.hash = "";
return url.toString();
}
const { protocol, hostname } = window.location;
const httpProtocol = protocol === "https:" ? "https" : "http";
const isLocal = LOCAL_HOSTS.has(hostname);
const host = isLocal ? `${hostname}:4000` : window.location.host;
return `${httpProtocol}://${host}${path}`;
};
const formatPrice = (price: number): string => {
if (!Number.isFinite(price)) {
return "0.00";
}
return price.toLocaleString(undefined, {
minimumFractionDigits: 2,
maximumFractionDigits: 2
});
};
const formatSize = (size: number): string => {
return size.toLocaleString();
};
const formatTime = (ts: number): string => {
return new Date(ts).toLocaleTimeString();
};
const formatConfidence = (value: number): string => `${Math.round(value * 100)}%`;
const formatPct = (value: number): string => `${Math.round(value * 100)}%`;
const formatUsd = (value: number): string => {
if (!Number.isFinite(value)) {
return "0.00";
}
return value.toLocaleString(undefined, {
minimumFractionDigits: 2,
maximumFractionDigits: 2
});
};
const normalizeContractId = (value: string): string => value.trim();
const formatContractLabel = (value: string): string => {
const normalized = normalizeContractId(value);
if (!normalized) {
return "Unknown contract";
}
if (/^\d+$/.test(normalized)) {
return `Instrument ${normalized}`;
}
return normalized;
};
const formatDateTime = (ts: number): string => {
const date = new Date(ts);
return `${date.toLocaleDateString()} ${date.toLocaleTimeString()}`;
};
const humanizeClassifierId = (value: string): string => {
if (!value) {
return "Classifier";
}
return value
.split("_")
.map((part) => (part ? part[0].toUpperCase() + part.slice(1) : part))
.join(" ");
};
const normalizeDirection = (value: string): "bullish" | "bearish" | "neutral" => {
const normalized = value.toLowerCase();
if (normalized === "bullish" || normalized === "bearish" || normalized === "neutral") {
return normalized;
}
return "neutral";
};
const extractUnderlying = (contractId: string): string => {
const match = contractId.match(/^(.+)-\d{4}-\d{2}-\d{2}-/);
if (match?.[1]) {
return match[1].toUpperCase();
}
return contractId.split("-")[0]?.toUpperCase() ?? contractId.toUpperCase();
};
const extractEquityTraceFromJoin = (joinId: string): string | null => {
const match = joinId.match(/^equityjoin:(.+)$/);
return match?.[1] ?? null;
};
const inferDarkUnderlying = (
event: InferredDarkEvent,
equityPrints: Map<string, EquityPrint>,
equityJoins: Map<string, EquityPrintJoin>
): string | null => {
for (const ref of event.evidence_refs) {
const join = equityJoins.get(ref);
if (!join) {
continue;
}
const underlying = join.features.underlying_id;
if (typeof underlying === "string" && underlying.length > 0) {
return underlying.toUpperCase();
}
}
const match = event.trace_id.match(/^dark:(?:stealth_accumulation|distribution):([^:]+):/);
if (match?.[1]) {
return match[1].toUpperCase();
}
for (const ref of event.evidence_refs) {
const traceId = extractEquityTraceFromJoin(ref);
if (!traceId) {
continue;
}
const print = equityPrints.get(traceId);
if (print) {
return print.underlying_id.toUpperCase();
}
}
return null;
};
const parseNumber = (value: unknown, fallback: number): number => {
if (typeof value === "number" && Number.isFinite(value)) {
return value;
}
if (typeof value === "string") {
const parsed = Number(value);
if (Number.isFinite(parsed)) {
return parsed;
}
}
return fallback;
};
const parseBoolean = (value: unknown, fallback = false): boolean => {
if (typeof value === "boolean") {
return value;
}
if (typeof value === "number") {
return value !== 0;
}
if (typeof value === "string") {
const normalized = value.trim().toLowerCase();
if (["true", "1", "yes", "on"].includes(normalized)) {
return true;
}
if (["false", "0", "no", "off"].includes(normalized)) {
return false;
}
}
return fallback;
};
const getJoinString = (join: EquityPrintJoin, key: string): string | null => {
const value = join.features[key];
return typeof value === "string" ? value : null;
};
const getJoinNumber = (join: EquityPrintJoin, key: string, fallback = Number.NaN): number => {
return parseNumber(join.features[key], fallback);
};
const getJoinBoolean = (join: EquityPrintJoin, key: string): boolean => {
return parseBoolean(join.features[key], false);
};
type NbboSide = "AA" | "A" | "B" | "BB";
const classifyNbboSide = (price: number, quote: OptionNBBO | null | undefined): NbboSide | null => {
if (!quote || !Number.isFinite(price)) {
return null;
}
const bid = quote.bid;
const ask = quote.ask;
if (!Number.isFinite(bid) || !Number.isFinite(ask) || ask <= 0) {
return null;
}
const spread = Math.max(0, ask - bid);
const epsilon = Math.max(0.01, spread * 0.05);
if (price > ask + epsilon) {
return "AA";
}
if (price >= ask - epsilon) {
return "A";
}
if (price < bid - epsilon) {
return "BB";
}
if (price <= bid + epsilon) {
return "B";
}
const mid = (bid + ask) / 2;
return price >= mid ? "A" : "B";
};
type ListScrollState = {
listRef: React.RefObject<HTMLDivElement>;
isAtTop: boolean;
isAtTopRef: React.MutableRefObject<boolean>;
missed: number;
resumeTick: number;
onNewItems: (count: number) => void;
jumpToTop: () => void;
};
const useListScroll = (): ListScrollState => {
const listRef = useRef<HTMLDivElement | null>(null);
const [isAtTop, setIsAtTop] = useState(true);
const [missed, setMissed] = useState(0);
const [resumeTick, setResumeTick] = useState(0);
const isAtTopRef = useRef(true);
const prevAtTopRef = useRef(true);
useEffect(() => {
isAtTopRef.current = isAtTop;
}, [isAtTop]);
const updateScrollState = useCallback(() => {
const el = listRef.current;
if (!el) {
return;
}
const atTop = el.scrollTop <= 2;
if (atTop && !prevAtTopRef.current) {
setResumeTick((prev) => prev + 1);
}
prevAtTopRef.current = atTop;
isAtTopRef.current = atTop;
setIsAtTop(atTop);
if (atTop) {
setMissed(0);
}
}, [isAtTopRef]);
useEffect(() => {
const el = listRef.current;
if (!el) {
return;
}
const onScroll = () => {
updateScrollState();
};
updateScrollState();
el.addEventListener("scroll", onScroll);
return () => {
el.removeEventListener("scroll", onScroll);
};
}, [updateScrollState]);
const onNewItems = useCallback((count: number) => {
if (count <= 0) {
return;
}
if (isAtTopRef.current) {
setMissed(0);
return;
}
setMissed((prev) => prev + count);
}, []);
const jumpToTop = useCallback(() => {
const el = listRef.current;
if (!el) {
return;
}
isAtTopRef.current = true;
el.scrollTop = 0;
updateScrollState();
}, [isAtTopRef, listRef, updateScrollState]);
return {
listRef,
isAtTop,
isAtTopRef,
missed,
resumeTick,
onNewItems,
jumpToTop
};
};
const useScrollAnchor = (
listRef: React.RefObject<HTMLDivElement>,
isAtTopRef: React.MutableRefObject<boolean>
) => {
const pendingRef = useRef<{ height: number } | null>(null);
const capture = useCallback(() => {
if (isAtTopRef.current) {
pendingRef.current = null;
return;
}
const el = listRef.current;
if (!el) {
return;
}
pendingRef.current = {
height: el.scrollHeight
};
}, [isAtTopRef, listRef]);
const apply = useCallback(() => {
const pending = pendingRef.current;
if (!pending) {
return;
}
const el = listRef.current;
if (!el) {
return;
}
if (isAtTopRef.current) {
pendingRef.current = null;
return;
}
const delta = el.scrollHeight - pending.height;
if (delta !== 0) {
el.scrollTop = Math.max(0, el.scrollTop + delta);
}
pendingRef.current = null;
}, [isAtTopRef, listRef]);
return { capture, apply };
};
const statusLabel = (status: WsStatus, paused: boolean, mode: TapeMode): string => {
if (paused) {
return "Paused";
}
if (mode === "replay") {
return status === "disconnected" ? "Replay Down" : "Replay";
}
switch (status) {
case "connected":
return "Live";
case "connecting":
return "Connecting";
case "disconnected":
default:
return "Disconnected";
}
};
type TapeConfig<T> = {
mode: TapeMode;
wsPath: string;
replayPath: string;
latestPath?: string;
liveEnabled?: boolean;
expectedType: MessageType;
batchSize?: number;
pollMs?: number;
captureScroll?: () => void;
onNewItems?: (count: number) => void;
getItemTs?: (item: T) => number;
getReplayKey?: (item: T) => string | null;
replaySourceKey?: string | null;
onReplaySourceKey?: (key: string | null) => void;
};
const useTape = <T extends SortableItem & { seq: number }>(
config: TapeConfig<T>
): TapeState<T> => {
const { mode, wsPath, replayPath, expectedType, latestPath, onNewItems, captureScroll } = config;
const batchSize = config.batchSize ?? 40;
const pollMs = config.pollMs ?? 1000;
const getItemTs = config.getItemTs ?? extractSortTs;
const getReplayKey = config.getReplayKey ?? extractTracePrefix;
const replaySourceKey = config.replaySourceKey ?? null;
const onReplaySourceKey = config.onReplaySourceKey;
const [status, setStatus] = useState<WsStatus>("connecting");
const [items, setItems] = useState<T[]>([]);
const [lastUpdate, setLastUpdate] = useState<number | null>(null);
const [replayTime, setReplayTime] = useState<number | null>(null);
const [replayComplete, setReplayComplete] = useState<boolean>(false);
const [paused, setPaused] = useState<boolean>(false);
const [dropped, setDropped] = useState<number>(0);
const reconnectRef = useRef<number | null>(null);
const socketRef = useRef<WebSocket | null>(null);
const cursorRef = useRef<ReplayCursor>({ ts: 0, seq: 0 });
const replayEndRef = useRef<number | null>(null);
const replayCompleteRef = useRef<boolean>(false);
const replaySourceRef = useRef<string | null>(null);
const replaySourceNotifiedRef = useRef<string | null>(null);
const emptyPollsRef = useRef<number>(0);
const pausedRef = useRef(paused);
const pendingRef = useRef<T[]>([]);
const pendingCountRef = useRef(0);
const flushHandleRef = useRef<number | null>(null);
useEffect(() => {
pausedRef.current = paused;
}, [paused]);
const cancelFlush = useCallback(() => {
if (flushHandleRef.current !== null) {
cancelAnimationFrame(flushHandleRef.current);
flushHandleRef.current = null;
}
}, []);
const scheduleFlush = useCallback(() => {
if (flushHandleRef.current !== null) {
return;
}
flushHandleRef.current = requestAnimationFrame(() => {
flushHandleRef.current = null;
const buffered = pendingRef.current;
if (buffered.length === 0) {
return;
}
pendingRef.current = [];
const pendingCount = pendingCountRef.current;
pendingCountRef.current = 0;
if (onNewItems && pendingCount > 0) {
onNewItems(pendingCount);
}
if (captureScroll) {
captureScroll();
}
setItems((prev) => mergeNewest(buffered, prev));
setLastUpdate(Date.now());
});
}, [captureScroll, onNewItems]);
const togglePause = useCallback(() => {
setPaused((prev) => {
const next = !prev;
if (!next) {
setDropped(0);
}
return next;
});
}, []);
useEffect(() => {
setItems([]);
setLastUpdate(null);
setReplayTime(null);
setReplayComplete(false);
replayCompleteRef.current = false;
replaySourceRef.current = null;
replaySourceNotifiedRef.current = null;
emptyPollsRef.current = 0;
setDropped(0);
setStatus("connecting");
cursorRef.current = { ts: 0, seq: 0 };
pendingRef.current = [];
pendingCountRef.current = 0;
cancelFlush();
}, [mode, replaySourceKey, cancelFlush]);
useEffect(() => {
if (mode !== "replay" || !latestPath) {
replayEndRef.current = null;
return;
}
let active = true;
replayEndRef.current = null;
setReplayComplete(false);
replayCompleteRef.current = false;
const fetchReplayEnd = async () => {
try {
const url = new URL(buildApiUrl(latestPath));
url.searchParams.set("limit", "1");
if (replaySourceKey) {
url.searchParams.set("source", replaySourceKey);
}
const response = await fetch(url.toString());
if (!response.ok) {
throw new Error(`Replay baseline failed with ${response.status}`);
}
const payload = (await response.json()) as { data?: T[] };
const latest = payload.data?.[0];
if (active && latest) {
replayEndRef.current = getItemTs(latest);
}
} catch (error) {
console.warn("Failed to load replay end cursor", error);
}
};
void fetchReplayEnd();
return () => {
active = false;
};
}, [mode, latestPath, getItemTs, replaySourceKey]);
useEffect(() => {
if (mode !== "live" || config.liveEnabled === false) {
return;
}
let active = true;
const connect = () => {
if (!active) {
return;
}
setStatus("connecting");
const socket = new WebSocket(buildWsUrl(wsPath));
socketRef.current = socket;
socket.onopen = () => {
if (!active) {
return;
}
setStatus("connected");
};
socket.onmessage = (event) => {
if (!active) {
return;
}
try {
const message = JSON.parse(event.data) as StreamMessage<T>;
if (!message || message.type !== expectedType) {
return;
}
if (pausedRef.current) {
setDropped((prev) => prev + 1);
setLastUpdate(Date.now());
return;
}
pendingRef.current.push(message.payload);
pendingCountRef.current += 1;
scheduleFlush();
} catch (error) {
console.warn("Failed to parse websocket payload", error);
}
};
socket.onclose = () => {
if (!active) {
return;
}
setStatus("disconnected");
reconnectRef.current = window.setTimeout(() => {
connect();
}, 1000);
};
socket.onerror = () => {
if (!active) {
return;
}
setStatus("disconnected");
socket.close();
};
};
connect();
return () => {
active = false;
cancelFlush();
if (reconnectRef.current !== null) {
window.clearTimeout(reconnectRef.current);
}
if (socketRef.current) {
socketRef.current.close();
}
};
}, [mode, wsPath, expectedType, scheduleFlush, cancelFlush]);
useEffect(() => {
if (mode !== "replay") {
return;
}
let active = true;
const poll = async () => {
if (!active || pausedRef.current) {
return;
}
if (replayCompleteRef.current) {
return;
}
try {
let keepPolling = true;
while (keepPolling && active && !pausedRef.current) {
const replayEnd = replayEndRef.current;
const cursor = cursorRef.current;
if (replayEnd !== null && cursor.ts >= replayEnd) {
replayCompleteRef.current = true;
setReplayComplete(true);
setStatus("disconnected");
return;
}
const url = new URL(buildApiUrl(replayPath));
url.searchParams.set("after_ts", cursor.ts.toString());
url.searchParams.set("after_seq", cursor.seq.toString());
url.searchParams.set("limit", batchSize.toString());
const desiredSource = replaySourceKey ?? replaySourceRef.current;
if (desiredSource) {
url.searchParams.set("source", desiredSource);
}
const response = await fetch(url.toString());
if (!response.ok) {
throw new Error(`Replay request failed with ${response.status}`);
}
const payload = (await response.json()) as ReplayResponse<T>;
let sourcePrefix = replaySourceRef.current;
if (replaySourceKey) {
if (sourcePrefix !== replaySourceKey) {
sourcePrefix = replaySourceKey;
replaySourceRef.current = replaySourceKey;
}
} else if (!sourcePrefix) {
const firstWithTrace = payload.data.find((item) => getReplayKey(item));
if (firstWithTrace) {
sourcePrefix = getReplayKey(firstWithTrace);
replaySourceRef.current = sourcePrefix ?? null;
}
}
if (onReplaySourceKey && sourcePrefix && replaySourceNotifiedRef.current !== sourcePrefix) {
replaySourceNotifiedRef.current = sourcePrefix;
onReplaySourceKey(sourcePrefix);
}
const filtered = sourcePrefix
? payload.data.filter((item) => getReplayKey(item) === sourcePrefix)
: payload.data;
const hasForeign =
sourcePrefix &&
payload.data.some((item) => {
const prefix = getReplayKey(item);
return prefix !== null && prefix !== sourcePrefix;
});
if (filtered.length > 0) {
const nextItems = [...filtered].reverse();
pendingRef.current.push(...nextItems);
pendingCountRef.current += nextItems.length;
scheduleFlush();
const last = filtered.at(-1);
if (last) {
const lastTs = getItemTs(last);
setReplayTime(lastTs);
if (replayEnd !== null && lastTs >= replayEnd) {
cursorRef.current = { ts: lastTs, seq: last.seq };
replayCompleteRef.current = true;
setReplayComplete(true);
setStatus("disconnected");
return;
}
}
emptyPollsRef.current = 0;
} else if (sourcePrefix) {
emptyPollsRef.current += 1;
}
if (payload.next) {
cursorRef.current = payload.next;
}
setStatus("connected");
keepPolling = filtered.length === batchSize;
if (keepPolling) {
await new Promise((resolve) => setTimeout(resolve, 0));
}
if (!replaySourceKey && hasForeign) {
replayCompleteRef.current = true;
setReplayComplete(true);
setStatus("disconnected");
return;
}
if (sourcePrefix && emptyPollsRef.current >= 3) {
replayCompleteRef.current = true;
setReplayComplete(true);
setStatus("disconnected");
return;
}
}
} catch (error) {
console.warn("Replay poll failed", error);
setStatus("disconnected");
}
};
void poll();
const interval = window.setInterval(poll, pollMs);
return () => {
active = false;
window.clearInterval(interval);
cancelFlush();
};
}, [
mode,
replayPath,
batchSize,
pollMs,
scheduleFlush,
cancelFlush,
getItemTs,
getReplayKey,
replaySourceKey,
onReplaySourceKey
]);
return {
status,
items,
lastUpdate,
replayTime,
replayComplete,
paused,
dropped,
togglePause
};
};
const toStaticTapeState = <T,>(
status: WsStatus,
items: T[],
lastUpdate: number | null
): TapeState<T> => ({
status,
items,
lastUpdate,
replayTime: null,
replayComplete: false,
paused: false,
dropped: 0,
togglePause: () => {}
});
const useLiveStream = <T extends SortableItem>(
config: {
enabled: boolean;
wsPath: string;
expectedType: MessageType;
onNewItems?: (count: number) => void;
captureScroll?: () => void;
shouldHold?: () => boolean;
resumeSignal?: number;
}
): TapeState<T> => {
const [status, setStatus] = useState<WsStatus>(
config.enabled ? "connecting" : "disconnected"
);
const [items, setItems] = useState<T[]>([]);
const [lastUpdate, setLastUpdate] = useState<number | null>(null);
const [replayTime] = useState<number | null>(null);
const [replayComplete] = useState<boolean>(false);
const [paused, setPaused] = useState<boolean>(false);
const [dropped, setDropped] = useState<number>(0);
const reconnectRef = useRef<number | null>(null);
const socketRef = useRef<WebSocket | null>(null);
const pausedRef = useRef(paused);
const pendingRef = useRef<T[]>([]);
const pendingCountRef = useRef(0);
const flushHandleRef = useRef<number | null>(null);
const holdRef = useRef<T[]>([]);
useEffect(() => {
pausedRef.current = paused;
}, [paused]);
const cancelFlush = useCallback(() => {
if (flushHandleRef.current !== null) {
cancelAnimationFrame(flushHandleRef.current);
flushHandleRef.current = null;
}
}, []);
const scheduleFlush = useCallback(() => {
if (flushHandleRef.current !== null) {
return;
}
flushHandleRef.current = requestAnimationFrame(() => {
flushHandleRef.current = null;
const buffered = pendingRef.current;
if (buffered.length === 0) {
return;
}
pendingRef.current = [];
const pendingCount = pendingCountRef.current;
pendingCountRef.current = 0;
if (config.onNewItems && pendingCount > 0) {
config.onNewItems(pendingCount);
}
const shouldHold = config.shouldHold ? config.shouldHold() : false;
if (!shouldHold && config.captureScroll) {
config.captureScroll();
}
if (shouldHold) {
holdRef.current = mergeNewest(buffered, holdRef.current);
setLastUpdate(Date.now());
return;
}
const nextBatch =
holdRef.current.length > 0 ? [...holdRef.current, ...buffered] : buffered;
holdRef.current = [];
setItems((prev) => mergeNewest(nextBatch, prev));
setLastUpdate(Date.now());
});
}, [config.captureScroll, config.onNewItems, config.shouldHold]);
const togglePause = useCallback(() => {
setPaused((prev) => {
const next = !prev;
if (!next) {
setDropped(0);
}
return next;
});
}, []);
useEffect(() => {
if (!config.enabled) {
setStatus("disconnected");
setItems([]);
setLastUpdate(null);
pendingRef.current = [];
pendingCountRef.current = 0;
holdRef.current = [];
cancelFlush();
return;
}
let active = true;
const connect = () => {
if (!active) {
return;
}
setStatus("connecting");
const socket = new WebSocket(buildWsUrl(config.wsPath));
socketRef.current = socket;
socket.onopen = () => {
if (!active) {
return;
}
setStatus("connected");
};
socket.onmessage = (event) => {
if (!active) {
return;
}
try {
const message = JSON.parse(event.data) as StreamMessage<T>;
if (!message || message.type !== config.expectedType) {
return;
}
if (pausedRef.current) {
setDropped((prev) => prev + 1);
setLastUpdate(Date.now());
return;
}
pendingRef.current.push(message.payload);
pendingCountRef.current += 1;
scheduleFlush();
} catch (error) {
console.warn("Failed to parse live stream payload", error);
}
};
socket.onclose = () => {
if (!active) {
return;
}
setStatus("disconnected");
reconnectRef.current = window.setTimeout(() => {
connect();
}, 1000);
};
socket.onerror = () => {
if (!active) {
return;
}
setStatus("disconnected");
socket.close();
};
};
connect();
return () => {
active = false;
cancelFlush();
if (reconnectRef.current !== null) {
window.clearTimeout(reconnectRef.current);
}
if (socketRef.current) {
socketRef.current.close();
}
};
}, [config.enabled, config.expectedType, config.wsPath, scheduleFlush, cancelFlush]);
useEffect(() => {
if (config.resumeSignal === undefined) {
return;
}
if (config.shouldHold && config.shouldHold()) {
return;
}
if (holdRef.current.length === 0) {
return;
}
setItems((prev) => mergeNewest(holdRef.current, prev));
holdRef.current = [];
setLastUpdate(Date.now());
}, [config.resumeSignal, config.shouldHold]);
return {
status,
items,
lastUpdate,
replayTime,
replayComplete,
paused,
dropped,
togglePause
};
};
const useFlowStream = (
enabled: boolean,
onNewItems?: (count: number) => void,
captureScroll?: () => void,
shouldHold?: () => boolean,
resumeSignal?: number
): TapeState<FlowPacket> => {
return useLiveStream<FlowPacket>({
enabled,
wsPath: "/ws/flow",
expectedType: "flow-packet",
onNewItems,
captureScroll,
shouldHold,
resumeSignal
});
};
type LiveSessionState = {
status: WsStatus;
lastUpdate: number | null;
options: OptionPrint[];
nbbo: OptionNBBO[];
equities: EquityPrint[];
equityJoins: EquityPrintJoin[];
flow: FlowPacket[];
classifierHits: ClassifierHitEvent[];
alerts: AlertEvent[];
inferredDark: InferredDarkEvent[];
chartCandles: EquityCandle[];
chartOverlay: EquityPrint[];
};
const getLiveSubscriptionKey = (subscription: LiveSubscription): string => {
switch (subscription.channel) {
case "equity-candles":
return `${subscription.channel}|${subscription.underlying_id}|${subscription.interval_ms}`;
case "equity-overlay":
return `${subscription.channel}|${subscription.underlying_id}`;
default:
return subscription.channel;
}
};
const getLiveManifest = (
pathname: string,
chartTicker: string,
chartIntervalMs: number
): LiveSubscription[] => {
const chartSubs: LiveSubscription[] = [
{ channel: "equity-candles", underlying_id: chartTicker, interval_ms: chartIntervalMs },
{ channel: "equity-overlay", underlying_id: chartTicker }
];
if (pathname === "/tape") {
return [
{ channel: "options" },
{ channel: "nbbo" },
{ channel: "equities" },
{ channel: "flow" }
];
}
if (pathname === "/signals") {
return [{ channel: "alerts" }, { channel: "classifier-hits" }, { channel: "inferred-dark" }];
}
if (pathname === "/charts") {
return [...chartSubs, { channel: "classifier-hits" }, { channel: "inferred-dark" }];
}
if (pathname === "/replay") {
return [];
}
return [
{ channel: "equities" },
{ channel: "flow" },
{ channel: "alerts" },
{ channel: "classifier-hits" },
{ channel: "inferred-dark" },
...chartSubs
];
};
const useLiveSession = (
enabled: boolean,
pathname: string,
chartTicker: string,
chartIntervalMs: number
): LiveSessionState => {
const [status, setStatus] = useState<WsStatus>(enabled ? "connecting" : "disconnected");
const [lastUpdate, setLastUpdate] = useState<number | null>(null);
const [options, setOptions] = useState<OptionPrint[]>([]);
const [nbbo, setNbbo] = useState<OptionNBBO[]>([]);
const [equities, setEquities] = useState<EquityPrint[]>([]);
const [equityJoins, setEquityJoins] = useState<EquityPrintJoin[]>([]);
const [flow, setFlow] = useState<FlowPacket[]>([]);
const [classifierHits, setClassifierHits] = useState<ClassifierHitEvent[]>([]);
const [alerts, setAlerts] = useState<AlertEvent[]>([]);
const [inferredDark, setInferredDark] = useState<InferredDarkEvent[]>([]);
const [chartCandles, setChartCandles] = useState<EquityCandle[]>([]);
const [chartOverlay, setChartOverlay] = useState<EquityPrint[]>([]);
const socketRef = useRef<WebSocket | null>(null);
const reconnectRef = useRef<number | null>(null);
const subscribedKeysRef = useRef<Set<string>>(new Set());
const subscribedMapRef = useRef<Map<string, LiveSubscription>>(new Map());
const manifest = useMemo(
() => getLiveManifest(pathname, chartTicker.toUpperCase(), chartIntervalMs),
[pathname, chartTicker, chartIntervalMs]
);
useEffect(() => {
if (!enabled) {
setStatus("disconnected");
setLastUpdate(null);
setOptions([]);
setNbbo([]);
setEquities([]);
setEquityJoins([]);
setFlow([]);
setClassifierHits([]);
setAlerts([]);
setInferredDark([]);
setChartCandles([]);
setChartOverlay([]);
subscribedKeysRef.current = new Set();
subscribedMapRef.current = new Map();
if (socketRef.current) {
socketRef.current.close();
socketRef.current = null;
}
if (reconnectRef.current !== null) {
window.clearTimeout(reconnectRef.current);
reconnectRef.current = null;
}
return;
}
let active = true;
const syncSubscriptions = (socket: WebSocket) => {
const nextKeys = new Set(manifest.map(getLiveSubscriptionKey));
const nextMap = new Map(manifest.map((sub) => [getLiveSubscriptionKey(sub), sub]));
const currentKeys = subscribedKeysRef.current;
const toSubscribe = manifest.filter((sub) => !currentKeys.has(getLiveSubscriptionKey(sub)));
const toUnsubscribe = Array.from(currentKeys)
.filter((key) => !nextKeys.has(key))
.map((key) => subscribedMapRef.current.get(key) ?? null)
.filter((sub): sub is LiveSubscription => sub !== null);
if (toUnsubscribe.length > 0) {
socket.send(JSON.stringify({ op: "unsubscribe", subscriptions: toUnsubscribe }));
}
if (toSubscribe.length > 0) {
socket.send(JSON.stringify({ op: "subscribe", subscriptions: toSubscribe }));
}
subscribedKeysRef.current = nextKeys;
subscribedMapRef.current = nextMap;
};
const handleMessage = (message: LiveServerMessage) => {
if (message.op === "ready" || message.op === "heartbeat") {
return;
}
if (message.op === "error") {
console.warn("Live socket error", message.message);
return;
}
const subscription = message.op === "snapshot" ? message.snapshot.subscription : message.subscription;
const items = message.op === "snapshot" ? message.snapshot.items : [message.item];
const updateAt = Date.now();
const mergeItems = <T extends SortableItem>(
setter: React.Dispatch<React.SetStateAction<T[]>>,
nextItems: T[]
) => {
setter((prev) =>
message.op === "snapshot" ? (nextItems as T[]) : mergeNewest(nextItems as T[], prev)
);
};
switch (subscription.channel) {
case "options":
mergeItems(setOptions, items as OptionPrint[]);
break;
case "nbbo":
mergeItems(setNbbo, items as OptionNBBO[]);
break;
case "equities":
mergeItems(setEquities, items as EquityPrint[]);
break;
case "equity-joins":
mergeItems(setEquityJoins, items as EquityPrintJoin[]);
break;
case "flow":
mergeItems(setFlow, items as FlowPacket[]);
break;
case "classifier-hits":
mergeItems(setClassifierHits, items as ClassifierHitEvent[]);
break;
case "alerts":
mergeItems(setAlerts, items as AlertEvent[]);
break;
case "inferred-dark":
mergeItems(setInferredDark, items as InferredDarkEvent[]);
break;
case "equity-candles":
mergeItems(setChartCandles, items as EquityCandle[]);
break;
case "equity-overlay":
mergeItems(setChartOverlay, items as EquityPrint[]);
break;
}
setLastUpdate(updateAt);
};
const connect = () => {
if (!active) {
return;
}
setStatus("connecting");
const socket = new WebSocket(buildWsUrl("/ws/live"));
socketRef.current = socket;
socket.onopen = () => {
if (!active) {
return;
}
setStatus("connected");
syncSubscriptions(socket);
};
socket.onmessage = (event) => {
if (!active) {
return;
}
try {
const parsed = JSON.parse(event.data) as LiveServerMessage;
handleMessage(parsed);
} catch (error) {
console.warn("Failed to parse live session payload", error);
}
};
socket.onclose = () => {
if (!active) {
return;
}
setStatus("disconnected");
subscribedKeysRef.current = new Set();
subscribedMapRef.current = new Map();
reconnectRef.current = window.setTimeout(connect, 1000);
};
socket.onerror = () => {
if (!active) {
return;
}
setStatus("disconnected");
socket.close();
};
};
connect();
return () => {
active = false;
if (reconnectRef.current !== null) {
window.clearTimeout(reconnectRef.current);
}
if (socketRef.current) {
socketRef.current.close();
}
};
}, [enabled]);
useEffect(() => {
const socket = socketRef.current;
if (!enabled || !socket || socket.readyState !== WebSocket.OPEN) {
return;
}
const nextKeys = new Set(manifest.map(getLiveSubscriptionKey));
const nextMap = new Map(manifest.map((sub) => [getLiveSubscriptionKey(sub), sub]));
const currentKeys = subscribedKeysRef.current;
const toSubscribe = manifest.filter((sub) => !currentKeys.has(getLiveSubscriptionKey(sub)));
const removedKeys = Array.from(currentKeys).filter((key) => !nextKeys.has(key));
if (removedKeys.length > 0) {
const removedSubs = removedKeys
.map((key) => subscribedMapRef.current.get(key) ?? null)
.filter((sub): sub is LiveSubscription => sub !== null);
if (removedSubs.length > 0) {
socket.send(JSON.stringify({ op: "unsubscribe", subscriptions: removedSubs }));
}
}
if (toSubscribe.length > 0) {
socket.send(JSON.stringify({ op: "subscribe", subscriptions: toSubscribe }));
}
subscribedKeysRef.current = nextKeys;
subscribedMapRef.current = nextMap;
}, [enabled, manifest]);
return {
status,
lastUpdate,
options,
nbbo,
equities,
equityJoins,
flow,
classifierHits,
alerts,
inferredDark,
chartCandles,
chartOverlay
};
};
type TapeStatusProps = {
status: WsStatus;
lastUpdate: number | null;
replayTime: number | null;
replayComplete: boolean;
paused: boolean;
dropped: number;
mode: TapeMode;
};
const TapeStatus = ({
status,
lastUpdate: _lastUpdate,
replayTime,
replayComplete,
paused,
dropped,
mode
}: TapeStatusProps) => {
const label = replayComplete ? "Replay Complete" : statusLabel(status, paused, mode);
const pausedLabel = paused && dropped > 0 ? `+${dropped} queued` : "";
return (
<div className={`status-inline status-${status} ${mode === "replay" ? "status-replay" : ""}`.trim()}>
<span className="status-dot" />
<span className="status-inline-label">{label}</span>
{mode === "replay" ? (
<span className="status-inline-meta">
Replay time {replayTime ? formatTime(replayTime) : "—"}
</span>
) : null}
<span className={`status-inline-counter${pausedLabel ? " status-inline-counter-visible" : ""}`}>
{pausedLabel || "+000 queued"}
</span>
</div>
);
};
type TapeControlsProps = {
paused: boolean;
onTogglePause: () => void;
isAtTop: boolean;
missed: number;
onJump: () => void;
};
const TapeControls = ({ paused, onTogglePause, isAtTop, missed, onJump }: TapeControlsProps) => {
const active = !isAtTop && missed > 0;
return (
<div className={`tape-controls${active ? " tape-controls-active" : ""}`}>
<button className="pause-button" type="button" onClick={onTogglePause}>
{paused ? "Resume" : "Pause"}
</button>
<button className="jump-button" type="button" onClick={onJump} disabled={isAtTop}>
Jump to top
</button>
<span className="missed-count">{active ? `+${missed} new` : ""}</span>
</div>
);
};
type CandleChartProps = {
ticker: string;
intervalMs: number;
mode: TapeMode;
replayTime?: number | null;
liveCandles?: EquityCandle[];
liveOverlayPrints?: EquityPrint[];
classifierHits: ClassifierHitEvent[];
inferredDark: InferredDarkEvent[];
onClassifierHitClick: (hit: ClassifierHitEvent) => void;
onInferredDarkClick: (event: InferredDarkEvent) => void;
};
type MarkerAction =
| { kind: "hit"; hit: ClassifierHitEvent }
| { kind: "dark"; event: InferredDarkEvent };
const CandleChart = ({
ticker,
intervalMs,
mode,
replayTime = null,
liveCandles = [],
liveOverlayPrints = [],
classifierHits,
inferredDark,
onClassifierHitClick,
onInferredDarkClick
}: CandleChartProps) => {
const containerRef = useRef<HTMLDivElement | null>(null);
const chartRef = useRef<IChartApi | null>(null);
const seriesRef = useRef<CandlestickSeries | null>(null);
const socketRef = useRef<WebSocket | null>(null);
const reconnectRef = useRef<number | null>(null);
const overlaySocketRef = useRef<WebSocket | null>(null);
const overlayReconnectRef = useRef<number | null>(null);
const lastCandleRef = useRef<{ time: UTCTimestamp; seq: number } | null>(null);
const markerLookupRef = useRef<Map<string, MarkerAction>>(new Map());
const [visibleRangeMs, setVisibleRangeMs] = useState<{ from: number; to: number } | null>(null);
const onHitClickRef = useRef(onClassifierHitClick);
const onDarkClickRef = useRef(onInferredDarkClick);
const overlayCanvasRef = useRef<HTMLCanvasElement | null>(null);
const overlayCtxRef = useRef<CanvasRenderingContext2D | null>(null);
const overlayDataRef = useRef<EquityOverlayPoint[]>([]);
const overlayLiveRef = useRef<EquityOverlayPoint[]>([]);
const overlayLastFetchRef = useRef<{ startTs: number; endTs: number; ticker: string } | null>(
null
);
const overlayFetchAbortRef = useRef<AbortController | null>(null);
const overlayTimerRef = useRef<number | null>(null);
const [overlayEnabled, setOverlayEnabled] = useState(true);
const drawOverlay = useCallback(
(points: EquityOverlayPoint[]) => {
const canvas = overlayCanvasRef.current;
const ctx = overlayCtxRef.current;
const chart = chartRef.current;
if (!canvas || !ctx || !chart) {
return;
}
ctx.clearRect(0, 0, canvas.width, canvas.height);
if (!overlayEnabled || points.length === 0) {
canvas.style.opacity = "0";
return;
}
const timeScale = chart.timeScale();
if (!seriesRef.current) {
canvas.style.opacity = "0";
return;
}
const filtered = points.filter((point) => point.offExchangeFlag);
const sampled = sampleToLimit(filtered, 1400);
const maxRadius = 10;
const minRadius = 2;
const maxSize = Math.max(1, ...sampled.map((point) => point.size));
ctx.globalAlpha = 0.9;
ctx.fillStyle = "rgba(31, 74, 123, 0.55)";
ctx.strokeStyle = "rgba(31, 74, 123, 0.95)";
for (const point of sampled) {
const x = timeScale.timeToCoordinate(toChartTime(point.ts));
const y = seriesRef.current.priceToCoordinate(point.price);
if (x === null || y === null) {
continue;
}
const radius = clamp(
minRadius + (Math.sqrt(point.size) / Math.sqrt(maxSize)) * (maxRadius - minRadius),
minRadius,
maxRadius
);
ctx.beginPath();
ctx.arc(x, y, radius, 0, Math.PI * 2);
ctx.fill();
ctx.stroke();
}
ctx.globalAlpha = 1;
canvas.style.opacity = "1";
},
[overlayEnabled]
);
useEffect(() => {
drawOverlay([...overlayDataRef.current, ...overlayLiveRef.current]);
}, [drawOverlay, ticker, intervalMs, mode]);
useEffect(() => {
onHitClickRef.current = onClassifierHitClick;
}, [onClassifierHitClick]);
useEffect(() => {
onDarkClickRef.current = onInferredDarkClick;
}, [onInferredDarkClick]);
const markerBundle = useMemo(() => {
const lookup = new Map<string, MarkerAction>();
const markers: SeriesMarker<UTCTimestamp>[] = [];
if (!visibleRangeMs) {
return { markers, lookup };
}
const { from, to } = visibleRangeMs;
const inRangeHits = classifierHits
.filter((hit) => hit.source_ts >= from && hit.source_ts <= to)
.sort((a, b) => {
const delta = a.source_ts - b.source_ts;
if (delta !== 0) {
return delta;
}
return a.seq - b.seq;
});
const inRangeDark = inferredDark
.filter((event) => event.source_ts >= from && event.source_ts <= to)
.sort((a, b) => {
const delta = a.source_ts - b.source_ts;
if (delta !== 0) {
return delta;
}
return a.seq - b.seq;
});
const MAX_HIT_MARKERS = 220;
const MAX_DARK_MARKERS = 120;
const MAX_TOTAL_MARKERS = 320;
const cappedHits =
inRangeHits.length > MAX_HIT_MARKERS
? inRangeHits.slice(inRangeHits.length - MAX_HIT_MARKERS)
: inRangeHits;
const cappedDark =
inRangeDark.length > MAX_DARK_MARKERS
? inRangeDark.slice(inRangeDark.length - MAX_DARK_MARKERS)
: inRangeDark;
for (const hit of cappedHits) {
const direction = normalizeDirection(hit.direction);
const markerId = `hit:${hit.trace_id}:${hit.seq}`;
lookup.set(markerId, { kind: "hit", hit });
markers.push({
id: markerId,
time: toChartTime(hit.source_ts),
position: direction === "bullish" ? "belowBar" : "aboveBar",
color:
direction === "bullish"
? "#2f6d4f"
: direction === "bearish"
? "#c46f2a"
: "rgba(111, 91, 57, 0.9)",
shape:
direction === "bullish"
? "arrowUp"
: direction === "bearish"
? "arrowDown"
: "circle",
text: hit.classifier_id ? hit.classifier_id.slice(0, 3).toUpperCase() : "H"
});
}
for (const event of cappedDark) {
const markerId = `dark:${event.trace_id}:${event.seq}`;
lookup.set(markerId, { kind: "dark", event });
markers.push({
id: markerId,
time: toChartTime(event.source_ts),
position: "aboveBar",
color: "rgba(31, 74, 123, 0.9)",
shape: "square",
text: "D"
});
}
markers.sort((a, b) => {
const delta = Number(a.time) - Number(b.time);
if (delta !== 0) {
return delta;
}
return String(a.id ?? "").localeCompare(String(b.id ?? ""));
});
const cappedMarkers =
markers.length > MAX_TOTAL_MARKERS
? markers.slice(markers.length - MAX_TOTAL_MARKERS)
: markers;
if (cappedMarkers !== markers) {
const nextLookup = new Map<string, MarkerAction>();
for (const marker of cappedMarkers) {
const id = marker.id;
if (typeof id !== "string") {
continue;
}
const action = lookup.get(id);
if (action) {
nextLookup.set(id, action);
}
}
return { markers: cappedMarkers, lookup: nextLookup };
}
return { markers: cappedMarkers, lookup };
}, [classifierHits, inferredDark, visibleRangeMs]);
useEffect(() => {
if (!seriesRef.current) {
return;
}
markerLookupRef.current = markerBundle.lookup;
seriesRef.current.setMarkers(markerBundle.markers);
}, [markerBundle]);
const replayBucket = useMemo(() => {
if (mode !== "replay" || replayTime === null) {
return null;
}
return Math.floor(replayTime / intervalMs);
}, [mode, replayTime, intervalMs]);
const replayEndTs = useMemo(() => {
if (replayBucket === null) {
return null;
}
return (replayBucket + 1) * intervalMs - 1;
}, [replayBucket, intervalMs]);
const [ready, setReady] = useState(false);
const [status, setStatus] = useState<WsStatus>(mode === "live" ? "connecting" : "connected");
const [lastUpdate, setLastUpdate] = useState<number | null>(null);
const [hasData, setHasData] = useState(false);
const [error, setError] = useState<string | null>(null);
useLayoutEffect(() => {
const container = containerRef.current;
if (!container) {
return;
}
const width = container.clientWidth || 600;
const height = container.clientHeight || 360;
const chart = createChart(container, {
width,
height,
layout: {
background: { color: "#fffdf7" },
textColor: "#4e3e25"
},
grid: {
vertLines: { color: "rgba(82, 64, 36, 0.12)" },
horzLines: { color: "rgba(82, 64, 36, 0.12)" }
},
crosshair: {
vertLine: { color: "rgba(47, 109, 79, 0.35)" },
horzLine: { color: "rgba(47, 109, 79, 0.35)" }
},
timeScale: {
borderColor: "rgba(111, 91, 57, 0.35)",
timeVisible: true,
secondsVisible: intervalMs < 60000
},
rightPriceScale: {
borderColor: "rgba(111, 91, 57, 0.35)"
}
});
const overlayCanvas = document.createElement("canvas");
overlayCanvas.width = Math.max(1, Math.floor(width));
overlayCanvas.height = Math.max(1, Math.floor(height));
overlayCanvas.style.position = "absolute";
overlayCanvas.style.inset = "0";
overlayCanvas.style.pointerEvents = "none";
overlayCanvas.style.zIndex = "2";
overlayCanvas.style.opacity = "0";
container.style.position = "relative";
container.appendChild(overlayCanvas);
overlayCanvasRef.current = overlayCanvas;
overlayCtxRef.current = overlayCanvas.getContext("2d");
const series = chart.addCandlestickSeries({
upColor: "#2f6d4f",
downColor: "#c46f2a",
borderVisible: false,
wickUpColor: "#2f6d4f",
wickDownColor: "#c46f2a"
});
chartRef.current = chart;
seriesRef.current = series;
setReady(true);
const timeScale = chart.timeScale();
const updateVisibleRange = () => {
const range = timeScale.getVisibleRange();
if (!range) {
setVisibleRangeMs(null);
return;
}
const from = chartTimeToMs(range.from);
const to = chartTimeToMs(range.to);
if (from === null || to === null) {
setVisibleRangeMs(null);
return;
}
setVisibleRangeMs({
from: Math.min(from, to),
to: Math.max(from, to)
});
};
const clickHandler = (param: { hoveredObjectId?: unknown }) => {
const hovered = param.hoveredObjectId;
if (hovered === null || hovered === undefined) {
return;
}
const key = typeof hovered === "string" ? hovered : String(hovered);
const action = markerLookupRef.current.get(key);
if (!action) {
return;
}
if (action.kind === "hit") {
onHitClickRef.current(action.hit);
} else {
onDarkClickRef.current(action.event);
}
};
updateVisibleRange();
timeScale.subscribeVisibleTimeRangeChange(updateVisibleRange);
chart.subscribeClick(clickHandler);
const resizeObserver = new ResizeObserver((entries) => {
const entry = entries[0];
if (!entry) {
return;
}
const { width: nextWidth, height: nextHeight } = entry.contentRect;
if (Number.isFinite(nextWidth) && Number.isFinite(nextHeight)) {
const nextW = Math.max(1, Math.floor(nextWidth));
const nextH = Math.max(1, Math.floor(nextHeight));
chart.applyOptions({
width: nextW,
height: nextH
});
const canvas = overlayCanvasRef.current;
if (canvas) {
canvas.width = nextW;
canvas.height = nextH;
}
}
});
resizeObserver.observe(container);
return () => {
resizeObserver.disconnect();
timeScale.unsubscribeVisibleTimeRangeChange(updateVisibleRange);
chart.unsubscribeClick(clickHandler);
chart.remove();
chartRef.current = null;
seriesRef.current = null;
overlayCtxRef.current = null;
overlayCanvasRef.current?.remove();
overlayCanvasRef.current = null;
};
}, []);
useEffect(() => {
if (!ready || !seriesRef.current) {
return;
}
if (mode === "replay" && replayBucket === null) {
setError(null);
setHasData(false);
setLastUpdate(null);
lastCandleRef.current = null;
seriesRef.current.setData([]);
overlayDataRef.current = [];
overlayLiveRef.current = [];
overlayLastFetchRef.current = null;
setStatus("connected");
return;
}
let active = true;
setError(null);
setHasData(false);
setLastUpdate(null);
lastCandleRef.current = null;
seriesRef.current.setData([]);
overlayDataRef.current = [];
overlayLiveRef.current = [];
overlayLastFetchRef.current = null;
setStatus(mode === "live" ? "connecting" : "connected");
const fetchCandles = async () => {
try {
const url = new URL(buildApiUrl("/candles/equities"));
url.searchParams.set("underlying_id", ticker);
url.searchParams.set("interval_ms", intervalMs.toString());
url.searchParams.set("limit", "300");
url.searchParams.set("cache", "1");
if (mode === "replay" && replayEndTs !== null) {
url.searchParams.set("end_ts", replayEndTs.toString());
}
const response = await fetch(url.toString());
if (!response.ok) {
const detail = await readErrorDetail(response);
throw new Error(
`Candle fetch failed (${response.status})${detail ? `: ${detail}` : ""}`
);
}
const payload = (await response.json()) as { data?: EquityCandle[] };
if (!active || !seriesRef.current) {
return;
}
const sorted = [...(payload.data ?? [])].sort((a, b) => {
if (a.ts !== b.ts) {
return a.ts - b.ts;
}
return a.seq - b.seq;
});
const chartData = sorted.map(toChartCandle);
seriesRef.current.setData(chartData);
chartRef.current?.timeScale().fitContent();
drawOverlay([...overlayDataRef.current, ...overlayLiveRef.current]);
if (sorted.length > 0) {
const last = sorted[sorted.length - 1];
lastCandleRef.current = { time: toChartTime(last.ts), seq: last.seq };
setHasData(true);
setLastUpdate(last.ingest_ts ?? last.ts);
}
} catch (error) {
if (!active) {
return;
}
setError(error instanceof Error ? error.message : String(error));
setStatus("disconnected");
setHasData(false);
}
};
const ensureOverlayListener = () => {
if (!chartRef.current) {
return;
}
const handler = () => {
const combined = [...overlayDataRef.current, ...overlayLiveRef.current];
drawOverlay(combined);
scheduleOverlayFetch();
};
chartRef.current.timeScale().subscribeVisibleTimeRangeChange(handler);
return () => {
chartRef.current?.timeScale().unsubscribeVisibleTimeRangeChange(handler);
};
};
const cancelOverlayFetch = () => {
if (overlayFetchAbortRef.current) {
overlayFetchAbortRef.current.abort();
overlayFetchAbortRef.current = null;
}
};
const fetchOverlayRange = async (startTs: number, endTs: number) => {
cancelOverlayFetch();
const abort = new AbortController();
overlayFetchAbortRef.current = abort;
const url = new URL(buildApiUrl("/prints/equities/range"));
url.searchParams.set("underlying_id", ticker);
url.searchParams.set("start_ts", Math.floor(startTs).toString());
url.searchParams.set("end_ts", Math.floor(endTs).toString());
url.searchParams.set("limit", "2500");
const response = await fetch(url.toString(), { signal: abort.signal });
if (!response.ok) {
const detail = await readErrorDetail(response);
throw new Error(
`Equity range fetch failed (${response.status})${detail ? `: ${detail}` : ""}`
);
}
const payload = (await response.json()) as { data?: EquityPrint[] };
const prints = payload.data ?? [];
overlayDataRef.current = prints.map((print) => ({
ts: print.ts,
price: print.price,
size: print.size,
offExchangeFlag: print.offExchangeFlag
}));
overlayLiveRef.current = [];
overlayLastFetchRef.current = { startTs, endTs, ticker };
};
function scheduleOverlayFetch() {
if (overlayTimerRef.current !== null) {
window.clearTimeout(overlayTimerRef.current);
}
overlayTimerRef.current = window.setTimeout(() => {
if (!active || !chartRef.current || !seriesRef.current) {
return;
}
const timeScale = chartRef.current.timeScale();
const range = timeScale.getVisibleRange();
if (!range) {
return;
}
const startTs = chartTimeToMs(range.from);
const endTs = chartTimeToMs(range.to);
if (startTs === null || endTs === null) {
return;
}
const last = overlayLastFetchRef.current;
const needsFetch =
!last ||
last.ticker !== ticker ||
startTs < last.startTs ||
endTs > last.endTs ||
Math.abs(endTs - last.endTs) > intervalMs * 6;
if (!needsFetch) {
return;
}
void fetchOverlayRange(startTs, endTs)
.then(() => {
drawOverlay([...overlayDataRef.current, ...overlayLiveRef.current]);
})
.catch((error) => {
if (!active) {
return;
}
if (error instanceof DOMException && error.name === "AbortError") {
return;
}
console.warn("Overlay fetch failed", error);
});
}, 180);
}
const overlayUnsubscribe = ensureOverlayListener();
scheduleOverlayFetch();
void fetchCandles();
return () => {
active = false;
cancelOverlayFetch();
if (overlayTimerRef.current !== null) {
window.clearTimeout(overlayTimerRef.current);
overlayTimerRef.current = null;
}
overlayUnsubscribe?.();
};
}, [ready, ticker, intervalMs, mode, replayBucket, replayEndTs]);
useEffect(() => {
if (!ready || mode !== "live" || !seriesRef.current) {
if (socketRef.current) {
socketRef.current.close();
}
if (reconnectRef.current !== null) {
window.clearTimeout(reconnectRef.current);
reconnectRef.current = null;
}
if (overlaySocketRef.current) {
overlaySocketRef.current.close();
}
if (overlayReconnectRef.current !== null) {
window.clearTimeout(overlayReconnectRef.current);
overlayReconnectRef.current = null;
}
return;
}
if (mode !== "live" || !seriesRef.current) {
return;
}
const sortedCandles = [...liveCandles].sort((a, b) => (a.ts - b.ts) || (a.seq - b.seq));
if (sortedCandles.length > 0) {
seriesRef.current.setData(sortedCandles.map(toChartCandle));
const last = sortedCandles.at(-1);
if (last) {
lastCandleRef.current = { time: toChartTime(last.ts), seq: last.seq };
setHasData(true);
setLastUpdate(last.ingest_ts ?? last.ts);
setStatus("connected");
}
}
overlayLiveRef.current = liveOverlayPrints.map((print) => ({
ts: print.ts,
price: print.price,
size: print.size,
offExchangeFlag: print.offExchangeFlag
}));
drawOverlay([...overlayDataRef.current, ...overlayLiveRef.current]);
}, [ready, mode, liveCandles, liveOverlayPrints, drawOverlay]);
useEffect(() => {
if (!chartRef.current) {
return;
}
chartRef.current.timeScale().applyOptions({
timeVisible: true,
secondsVisible: intervalMs < 60000
});
}, [intervalMs]);
const statusText = statusLabel(status, false, mode);
const intervalLabel = formatIntervalLabel(intervalMs);
const emptyLabel =
mode === "live"
? status === "connected"
? `No candles yet. First ${intervalLabel} candle appears after the window closes.`
: "Chart offline. Start candles service."
: "No candles for this replay window.";
return (
<div className="chart-panel">
<div className="chart-meta">
<div className={`chart-status chart-status-${status}`}>
<span className="chart-dot" />
<span>{statusText}</span>
</div>
<span className="chart-meta-time">
{lastUpdate ? `Updated ${formatTime(lastUpdate)}` : "Waiting for data"}
</span>
<button
className={`overlay-toggle${overlayEnabled ? " overlay-toggle-on" : ""}`}
type="button"
onClick={() => setOverlayEnabled((prev) => !prev)}
>
Off-Ex {overlayEnabled ? "On" : "Off"}
</button>
<span className="overlay-legend">Blue circles = off-exchange trades</span>
</div>
<div className="chart-surface" ref={containerRef} />
{error ? (
<div className="empty chart-empty">Chart error: {error}</div>
) : !hasData ? (
<div className="empty chart-empty">{emptyLabel}</div>
) : null}
</div>
);
};
type AlertSeverityStripProps = {
alerts: AlertEvent[];
};
const AlertSeverityStrip = ({ alerts }: AlertSeverityStripProps) => {
const windowMs = 30 * 60 * 1000;
const now = Date.now();
const severityCounts = alerts.reduce(
(acc, alert) => {
if (now - alert.source_ts > windowMs) {
return acc;
}
if (alert.severity === "high") {
acc.high += 1;
} else if (alert.severity === "medium") {
acc.medium += 1;
} else {
acc.low += 1;
}
return acc;
},
{ high: 0, medium: 0, low: 0 }
);
const directionCounts = alerts.reduce(
(acc, alert) => {
if (now - alert.source_ts > windowMs) {
return acc;
}
const direction = normalizeDirection(alert.hits[0]?.direction ?? "neutral");
acc[direction] += 1;
return acc;
},
{ bullish: 0, bearish: 0, neutral: 0 }
);
const severityTotal = severityCounts.high + severityCounts.medium + severityCounts.low;
const highPct = severityTotal > 0 ? (severityCounts.high / severityTotal) * 100 : 0;
const mediumPct = severityTotal > 0 ? (severityCounts.medium / severityTotal) * 100 : 0;
const lowPct = severityTotal > 0 ? (severityCounts.low / severityTotal) * 100 : 0;
const directionTotal =
directionCounts.bullish + directionCounts.bearish + directionCounts.neutral;
const bullishPct = directionTotal > 0 ? (directionCounts.bullish / directionTotal) * 100 : 0;
const bearishPct = directionTotal > 0 ? (directionCounts.bearish / directionTotal) * 100 : 0;
const neutralPct = directionTotal > 0 ? (directionCounts.neutral / directionTotal) * 100 : 0;
return (
<div className="alert-strips">
<div className="alert-strip-section">
<div className="alert-strip-header">
<span>Severity (last 30m)</span>
<span>{severityTotal} alerts</span>
</div>
<div className="alert-strip-bar">
<div className="strip-segment severity-high" style={{ width: `${highPct}%` }}>
{severityCounts.high > 0 ? `High ${severityCounts.high}` : ""}
</div>
<div className="strip-segment severity-medium" style={{ width: `${mediumPct}%` }}>
{severityCounts.medium > 0 ? `Med ${severityCounts.medium}` : ""}
</div>
<div className="strip-segment severity-low" style={{ width: `${lowPct}%` }}>
{severityCounts.low > 0 ? `Low ${severityCounts.low}` : ""}
</div>
</div>
</div>
<div className="alert-strip-section">
<div className="alert-strip-header">
<span>Direction (last 30m)</span>
<span>{directionTotal} alerts</span>
</div>
<div className="alert-strip-bar">
<div className="strip-segment direction-bullish" style={{ width: `${bullishPct}%` }}>
{directionCounts.bullish > 0 ? `Bull ${directionCounts.bullish}` : ""}
</div>
<div className="strip-segment direction-bearish" style={{ width: `${bearishPct}%` }}>
{directionCounts.bearish > 0 ? `Bear ${directionCounts.bearish}` : ""}
</div>
<div className="strip-segment direction-neutral" style={{ width: `${neutralPct}%` }}>
{directionCounts.neutral > 0 ? `Neut ${directionCounts.neutral}` : ""}
</div>
</div>
</div>
</div>
);
};
type EvidenceItem =
| { kind: "flow"; id: string; packet: FlowPacket }
| { kind: "print"; id: string; print: OptionPrint }
| { kind: "unknown"; id: string };
type DarkEvidenceItem =
| { kind: "join"; id: string; join: EquityPrintJoin }
| { kind: "unknown"; id: string };
type AlertDrawerProps = {
alert: AlertEvent;
flowPacket: FlowPacket | null;
evidence: EvidenceItem[];
onClose: () => void;
};
const AlertDrawer = ({ alert, flowPacket, evidence, onClose }: AlertDrawerProps) => {
const primary = alert.hits[0];
const direction = primary ? normalizeDirection(primary.direction) : "neutral";
const evidencePrints = evidence.filter((item) => item.kind === "print");
const unknownCount = evidence.filter((item) => item.kind === "unknown").length;
return (
<aside className="drawer">
<div className="drawer-header">
<div>
<p className="drawer-eyebrow">Alert details</p>
<h3>{primary ? humanizeClassifierId(primary.classifier_id) : "Alert"}</h3>
<p className="drawer-subtitle">{formatDateTime(alert.source_ts)}</p>
</div>
<button className="drawer-close" type="button" onClick={onClose}>
Close
</button>
</div>
<div className="drawer-meta">
<span className={`pill severity-${alert.severity}`}>{alert.severity}</span>
<span className="drawer-chip">Score {Math.round(alert.score)}</span>
{primary ? <span className={`pill direction-${direction}`}>{direction}</span> : null}
</div>
<div className="drawer-section">
<h4>Classifier hits</h4>
{alert.hits.length === 0 ? (
<p className="drawer-empty">No classifier hits captured.</p>
) : (
<div className="drawer-list">
{alert.hits.map((hit, index) => (
<div className="drawer-row" key={`${alert.trace_id}-${hit.classifier_id}-${index}`}>
<div className="drawer-row-title">{humanizeClassifierId(hit.classifier_id)}</div>
<div className="drawer-row-meta">
<span className={`pill direction-${normalizeDirection(hit.direction)}`}>
{normalizeDirection(hit.direction)}
</span>
<span>Confidence {formatConfidence(hit.confidence)}</span>
</div>
{hit.explanations?.[0] ? (
<p className="drawer-note">{hit.explanations[0]}</p>
) : null}
</div>
))}
</div>
)}
</div>
<div className="drawer-section">
<h4>Flow packet</h4>
{flowPacket ? (
<div className="drawer-row">
<div className="drawer-row-title">
{String(flowPacket.features.option_contract_id ?? flowPacket.id ?? "Flow packet")}
</div>
<div className="drawer-row-meta">
<span>{formatFlowMetric(parseNumber(flowPacket.features.count, flowPacket.members.length))} prints</span>
<span>{formatFlowMetric(parseNumber(flowPacket.features.total_size, 0))} size</span>
<span>
Notional $
{formatUsd(
parseNumber(
flowPacket.features.total_notional,
parseNumber(flowPacket.features.total_premium, 0) * 100
)
)}
</span>
</div>
<p className="drawer-note">
Window {formatFlowMetric(parseNumber(flowPacket.features.window_ms, 0), "ms")} ·{" "}
{formatTime(parseNumber(flowPacket.features.start_ts, flowPacket.source_ts))} {" "}
{formatTime(parseNumber(flowPacket.features.end_ts, flowPacket.source_ts))}
</p>
</div>
) : (
<p className="drawer-empty">Flow packet not in the current live cache.</p>
)}
</div>
<div className="drawer-section">
<h4>Evidence prints</h4>
{evidencePrints.length === 0 ? (
<p className="drawer-empty">No evidence prints in the live cache yet.</p>
) : (
<div className="drawer-list">
{evidencePrints.slice(0, 6).map((item) => (
<div className="drawer-row" key={item.id}>
<div className="drawer-row-title">{item.print.option_contract_id}</div>
<div className="drawer-row-meta">
<span>${formatPrice(item.print.price)}</span>
<span>{formatSize(item.print.size)}x</span>
<span>{item.print.exchange}</span>
</div>
<p className="drawer-note">{formatTime(item.print.ts)}</p>
</div>
))}
</div>
)}
{unknownCount > 0 ? (
<p className="drawer-empty">+{unknownCount} evidence prints not in cache.</p>
) : null}
</div>
</aside>
);
};
type ClassifierHitDrawerProps = {
hit: ClassifierHitEvent;
flowPacket: FlowPacket | null;
evidence: EvidenceItem[];
onClose: () => void;
};
const ClassifierHitDrawer = ({ hit, flowPacket, evidence, onClose }: ClassifierHitDrawerProps) => {
const direction = normalizeDirection(hit.direction);
const evidencePrints = evidence.filter((item) => item.kind === "print");
const unknownCount = evidence.filter((item) => item.kind === "unknown").length;
return (
<aside className="drawer">
<div className="drawer-header">
<div>
<p className="drawer-eyebrow">Classifier hit</p>
<h3>{humanizeClassifierId(hit.classifier_id)}</h3>
<p className="drawer-subtitle">{formatDateTime(hit.source_ts)}</p>
</div>
<button className="drawer-close" type="button" onClick={onClose}>
Close
</button>
</div>
<div className="drawer-meta">
<span className={`pill direction-${direction}`}>{direction}</span>
<span className="drawer-chip">Confidence {formatConfidence(hit.confidence)}</span>
</div>
<div className="drawer-section">
<h4>Explanation</h4>
{hit.explanations.length === 0 ? (
<p className="drawer-empty">No explanation strings captured for this hit.</p>
) : (
<div className="drawer-list">
{hit.explanations.slice(0, 6).map((text, idx) => (
<div className="drawer-row" key={`${hit.trace_id}-${hit.seq}-ex-${idx}`}>
<p className="drawer-note">{text}</p>
</div>
))}
</div>
)}
{hit.explanations.length > 6 ? (
<p className="drawer-empty">+{hit.explanations.length - 6} more explanations not shown.</p>
) : null}
</div>
<div className="drawer-section">
<h4>Flow packet</h4>
{flowPacket ? (
<div className="drawer-row">
<div className="drawer-row-title">
{String(flowPacket.features.option_contract_id ?? flowPacket.id ?? "Flow packet")}
</div>
<div className="drawer-row-meta">
<span>
{formatFlowMetric(parseNumber(flowPacket.features.count, flowPacket.members.length))} prints
</span>
<span>{formatFlowMetric(parseNumber(flowPacket.features.total_size, 0))} size</span>
<span>
Notional $
{formatUsd(
parseNumber(
flowPacket.features.total_notional,
parseNumber(flowPacket.features.total_premium, 0) * 100
)
)}
</span>
</div>
<p className="drawer-note">
Window {formatFlowMetric(parseNumber(flowPacket.features.window_ms, 0), "ms")} ·{" "}
{formatTime(parseNumber(flowPacket.features.start_ts, flowPacket.source_ts))} {" "}
{formatTime(parseNumber(flowPacket.features.end_ts, flowPacket.source_ts))}
</p>
</div>
) : (
<p className="drawer-empty">Flow packet not in the current live cache.</p>
)}
</div>
<div className="drawer-section">
<h4>Evidence prints</h4>
{evidencePrints.length === 0 ? (
<p className="drawer-empty">No linked option prints in the live cache yet.</p>
) : (
<div className="drawer-list">
{evidencePrints.slice(0, 6).map((item) => (
<div className="drawer-row" key={item.id}>
<div className="drawer-row-title">{item.print.option_contract_id}</div>
<div className="drawer-row-meta">
<span>${formatPrice(item.print.price)}</span>
<span>{formatSize(item.print.size)}x</span>
<span>{item.print.exchange}</span>
</div>
<p className="drawer-note">{formatTime(item.print.ts)}</p>
</div>
))}
</div>
)}
{unknownCount > 0 ? (
<p className="drawer-empty">+{unknownCount} evidence prints not in cache.</p>
) : null}
</div>
</aside>
);
};
type DarkDrawerProps = {
event: InferredDarkEvent;
evidence: DarkEvidenceItem[];
underlying: string | null;
onClose: () => void;
};
const DarkDrawer = ({ event, evidence, underlying, onClose }: DarkDrawerProps) => {
const joinEvidence = evidence.filter(
(item): item is { kind: "join"; id: string; join: EquityPrintJoin } => item.kind === "join"
);
const unknownCount = evidence.filter((item) => item.kind === "unknown").length;
const traceRefs = event.evidence_refs.slice(0, 6);
const extraRefs = Math.max(0, event.evidence_refs.length - traceRefs.length);
return (
<aside className="drawer">
<div className="drawer-header">
<div>
<p className="drawer-eyebrow">Inferred dark</p>
<h3>{humanizeClassifierId(event.type)}</h3>
<p className="drawer-subtitle">{formatDateTime(event.source_ts)}</p>
</div>
<button className="drawer-close" type="button" onClick={onClose}>
Close
</button>
</div>
<div className="drawer-meta">
<span className="drawer-chip">Confidence {formatConfidence(event.confidence)}</span>
{underlying ? <span className="drawer-chip">{underlying}</span> : null}
<span className="drawer-chip">Evidence {event.evidence_refs.length}</span>
</div>
<div className="drawer-section">
<h4>Trace path</h4>
<div className="drawer-row">
<div className="drawer-row-title">Event trace</div>
<p className="drawer-note">{event.trace_id}</p>
</div>
{traceRefs.length === 0 ? (
<p className="drawer-empty">No evidence references attached.</p>
) : (
<div className="drawer-list">
{traceRefs.map((ref) => (
<div className="drawer-row" key={ref}>
<div className="drawer-row-title">Evidence ref</div>
<p className="drawer-note">{ref}</p>
</div>
))}
</div>
)}
{extraRefs > 0 ? <p className="drawer-empty">+{extraRefs} more evidence refs.</p> : null}
</div>
<div className="drawer-section">
<h4>Evidence joins</h4>
{joinEvidence.length === 0 ? (
<p className="drawer-empty">No evidence joins in the current cache.</p>
) : (
<div className="drawer-list">
{joinEvidence.slice(0, 6).map((item) => {
const joinUnderlying = getJoinString(item.join, "underlying_id") ?? "Unknown";
const price = getJoinNumber(item.join, "price");
const size = getJoinNumber(item.join, "size");
const placement = getJoinString(item.join, "quote_placement") ?? "MISSING";
const offExchange = getJoinBoolean(item.join, "off_exchange_flag");
const bid = getJoinNumber(item.join, "quote_bid");
const ask = getJoinNumber(item.join, "quote_ask");
const mid = getJoinNumber(item.join, "quote_mid");
const spread = getJoinNumber(item.join, "quote_spread");
const quoteAge = parseNumber(item.join.join_quality.quote_age_ms, Number.NaN);
const quoteStale = parseNumber(item.join.join_quality.quote_stale, 0) > 0;
const quoteMissing = parseNumber(item.join.join_quality.quote_missing, 0) > 0;
return (
<div className="drawer-row" key={item.id}>
<div className="drawer-row-title">{joinUnderlying}</div>
<div className="drawer-row-meta">
{Number.isFinite(price) ? <span>${formatPrice(price)}</span> : null}
{Number.isFinite(size) ? <span>{formatSize(size)}x</span> : null}
<span className="pill">{placement}</span>
{offExchange ? (
<span className="flag">Off-Ex</span>
) : (
<span className="flag flag-muted">Lit</span>
)}
{Number.isFinite(quoteAge) ? <span>{Math.round(quoteAge)}ms</span> : null}
{quoteStale ? <span className="pill nbbo-stale">Quote stale</span> : null}
{quoteMissing ? <span className="pill nbbo-missing">Quote missing</span> : null}
</div>
<p className="drawer-note">{item.join.trace_id}</p>
{Number.isFinite(bid) && Number.isFinite(ask) ? (
<p className="drawer-note">
Quote ${formatPrice(bid)} x ${formatPrice(ask)}
{Number.isFinite(mid) ? ` · Mid ${formatPrice(mid)}` : ""}
{Number.isFinite(spread) ? ` · Spr ${formatPrice(spread)}` : ""}
</p>
) : null}
</div>
);
})}
</div>
)}
{unknownCount > 0 ? (
<p className="drawer-empty">+{unknownCount} evidence refs not in cache.</p>
) : null}
</div>
</aside>
);
};
const formatFlowMetric = (value: number, suffix?: string): string => {
if (suffix) {
return `${value}${suffix}`;
}
return value.toLocaleString();
};
const useTerminalState = () => {
const pathname = usePathname();
const [mode, setMode] = useState<TapeMode>("live");
const [replaySource, setReplaySource] = useState<string | null>(null);
const [selectedAlert, setSelectedAlert] = useState<AlertEvent | null>(null);
const [selectedDarkEvent, setSelectedDarkEvent] = useState<InferredDarkEvent | null>(null);
const [selectedClassifierHit, setSelectedClassifierHit] = useState<ClassifierHitEvent | null>(null);
const [filterInput, setFilterInput] = useState<string>("");
const [chartIntervalMs, setChartIntervalMs] = useState<number>(CANDLE_INTERVALS[0].ms);
const activeTickers = useMemo(() => {
const parts = filterInput
.split(/[,\s]+/)
.map((value) => value.trim().toUpperCase())
.filter(Boolean);
return Array.from(new Set(parts));
}, [filterInput]);
const tickerSet = useMemo(() => new Set(activeTickers), [activeTickers]);
const chartTicker = useMemo(() => activeTickers[0] ?? "SPY", [activeTickers]);
const liveSession = useLiveSession(mode === "live", pathname, chartTicker, chartIntervalMs);
const handleReplaySource = useCallback((value: string | null) => {
setReplaySource(value);
}, []);
useEffect(() => {
setReplaySource(null);
}, [mode]);
const optionsScroll = useListScroll();
const equitiesScroll = useListScroll();
const flowScroll = useListScroll();
const darkScroll = useListScroll();
const alertsScroll = useListScroll();
const classifierScroll = useListScroll();
const optionsAnchor = useScrollAnchor(optionsScroll.listRef, optionsScroll.isAtTopRef);
const equitiesAnchor = useScrollAnchor(equitiesScroll.listRef, equitiesScroll.isAtTopRef);
const flowAnchor = useScrollAnchor(flowScroll.listRef, flowScroll.isAtTopRef);
const darkAnchor = useScrollAnchor(darkScroll.listRef, darkScroll.isAtTopRef);
const alertsAnchor = useScrollAnchor(alertsScroll.listRef, alertsScroll.isAtTopRef);
const classifierAnchor = useScrollAnchor(
classifierScroll.listRef,
classifierScroll.isAtTopRef
);
const disableReplayGrouping = useCallback(() => null, []);
const options = useTape<OptionPrint>({
mode,
liveEnabled: false,
wsPath: "/ws/options",
replayPath: "/replay/options",
latestPath: "/prints/options",
expectedType: "option-print",
batchSize: mode === "replay" ? 120 : undefined,
pollMs: mode === "replay" ? 200 : undefined,
captureScroll: optionsAnchor.capture,
onNewItems: optionsScroll.onNewItems,
getReplayKey: extractReplaySource,
onReplaySourceKey: handleReplaySource
});
const equities = useTape<EquityPrint>({
mode,
liveEnabled: false,
wsPath: "/ws/equities",
replayPath: "/replay/equities",
latestPath: "/prints/equities",
expectedType: "equity-print",
batchSize: mode === "replay" ? 120 : undefined,
pollMs: mode === "replay" ? 200 : undefined,
captureScroll: equitiesAnchor.capture,
onNewItems: equitiesScroll.onNewItems
});
const equityJoins = useTape<EquityPrintJoin>({
mode,
liveEnabled: false,
wsPath: "/ws/equity-joins",
replayPath: "/replay/equity-joins",
latestPath: "/joins/equities",
expectedType: "equity-join",
batchSize: mode === "replay" ? 120 : undefined,
pollMs: mode === "replay" ? 200 : undefined,
getReplayKey: disableReplayGrouping
});
const nbbo = useTape<OptionNBBO>({
mode,
liveEnabled: false,
wsPath: "/ws/options-nbbo",
replayPath: "/replay/nbbo",
latestPath: "/nbbo/options",
expectedType: "option-nbbo",
batchSize: mode === "replay" ? 120 : undefined,
pollMs: mode === "replay" ? 200 : undefined,
getReplayKey: extractReplaySource,
replaySourceKey: replaySource
});
const inferredDark = useTape<InferredDarkEvent>({
mode,
liveEnabled: false,
wsPath: "/ws/inferred-dark",
replayPath: "/replay/inferred-dark",
latestPath: "/dark/inferred",
expectedType: "inferred-dark",
batchSize: mode === "replay" ? 120 : undefined,
pollMs: mode === "replay" ? 200 : undefined,
captureScroll: darkAnchor.capture,
onNewItems: darkScroll.onNewItems,
getReplayKey: disableReplayGrouping
});
const flow = useTape<FlowPacket>({
mode,
liveEnabled: false,
wsPath: "/ws/flow",
replayPath: "/replay/flow",
latestPath: "/flow/packets",
expectedType: "flow-packet",
batchSize: mode === "replay" ? 120 : undefined,
pollMs: mode === "replay" ? 200 : undefined,
captureScroll: flowAnchor.capture,
onNewItems: flowScroll.onNewItems,
getReplayKey: disableReplayGrouping
});
const alerts = useTape<AlertEvent>({
mode,
liveEnabled: false,
wsPath: "/ws/alerts",
replayPath: "/replay/alerts",
latestPath: "/flow/alerts",
expectedType: "alert",
batchSize: mode === "replay" ? 120 : undefined,
pollMs: mode === "replay" ? 200 : undefined,
captureScroll: alertsAnchor.capture,
onNewItems: alertsScroll.onNewItems,
getReplayKey: disableReplayGrouping
});
const classifierHits = useTape<ClassifierHitEvent>({
mode,
liveEnabled: false,
wsPath: "/ws/classifier-hits",
replayPath: "/replay/classifier-hits",
latestPath: "/flow/classifier-hits",
expectedType: "classifier-hit",
batchSize: mode === "replay" ? 120 : undefined,
pollMs: mode === "replay" ? 200 : undefined,
captureScroll: classifierAnchor.capture,
onNewItems: classifierScroll.onNewItems,
getReplayKey: disableReplayGrouping
});
const optionsFeed =
mode === "live"
? toStaticTapeState(liveSession.status, liveSession.options, liveSession.lastUpdate)
: options;
const nbboFeed =
mode === "live" ? toStaticTapeState(liveSession.status, liveSession.nbbo, liveSession.lastUpdate) : nbbo;
const equitiesFeed =
mode === "live"
? toStaticTapeState(liveSession.status, liveSession.equities, liveSession.lastUpdate)
: equities;
const equityJoinsFeed =
mode === "live"
? toStaticTapeState(liveSession.status, liveSession.equityJoins, liveSession.lastUpdate)
: equityJoins;
const flowFeed =
mode === "live" ? toStaticTapeState(liveSession.status, liveSession.flow, liveSession.lastUpdate) : flow;
const alertsFeed =
mode === "live" ? toStaticTapeState(liveSession.status, liveSession.alerts, liveSession.lastUpdate) : alerts;
const classifierHitsFeed =
mode === "live"
? toStaticTapeState(liveSession.status, liveSession.classifierHits, liveSession.lastUpdate)
: classifierHits;
const inferredDarkFeed =
mode === "live"
? toStaticTapeState(liveSession.status, liveSession.inferredDark, liveSession.lastUpdate)
: inferredDark;
useLayoutEffect(() => {
optionsAnchor.apply();
}, [optionsFeed.items, optionsAnchor.apply]);
useLayoutEffect(() => {
equitiesAnchor.apply();
}, [equitiesFeed.items, equitiesAnchor.apply]);
useLayoutEffect(() => {
flowAnchor.apply();
}, [flowFeed.items, flowAnchor.apply]);
useLayoutEffect(() => {
darkAnchor.apply();
}, [inferredDarkFeed.items, darkAnchor.apply]);
useLayoutEffect(() => {
alertsAnchor.apply();
}, [alertsFeed.items, alertsAnchor.apply]);
useLayoutEffect(() => {
classifierAnchor.apply();
}, [classifierHitsFeed.items, classifierAnchor.apply]);
const nbboMap = useMemo(() => {
const map = new Map<string, OptionNBBO>();
for (const quote of nbboFeed.items) {
const contractId = normalizeContractId(quote.option_contract_id);
const existing = map.get(contractId);
if (
!existing ||
quote.ts > existing.ts ||
(quote.ts === existing.ts && quote.seq >= existing.seq)
) {
map.set(contractId, quote);
}
}
return map;
}, [nbboFeed.items]);
const optionPrintMap = useMemo(() => {
const map = new Map<string, OptionPrint>();
for (const print of optionsFeed.items) {
if (print.trace_id) {
map.set(print.trace_id, print);
}
}
return map;
}, [optionsFeed.items]);
const equityPrintMap = useMemo(() => {
const map = new Map<string, EquityPrint>();
for (const print of equitiesFeed.items) {
if (print.trace_id) {
map.set(print.trace_id, print);
}
}
return map;
}, [equitiesFeed.items]);
const equityJoinMap = useMemo(() => {
const map = new Map<string, EquityPrintJoin>();
for (const join of equityJoinsFeed.items) {
map.set(join.id, join);
}
return map;
}, [equityJoinsFeed.items]);
const flowPacketMap = useMemo(() => {
const map = new Map<string, FlowPacket>();
for (const packet of flowFeed.items) {
map.set(packet.id, packet);
}
return map;
}, [flowFeed.items]);
const [fetchedOptionPrintMap, setFetchedOptionPrintMap] = useState<Map<string, OptionPrint>>(
() => new Map()
);
const [fetchedFlowPacketMap, setFetchedFlowPacketMap] = useState<Map<string, FlowPacket>>(
() => new Map()
);
const [fetchedEquityJoinMap, setFetchedEquityJoinMap] = useState<Map<string, EquityPrintJoin>>(
() => new Map()
);
const mergedOptionPrintMap = useMemo(() => {
const merged = new Map(optionPrintMap);
for (const [key, value] of fetchedOptionPrintMap) {
merged.set(key, value);
}
return merged;
}, [optionPrintMap, fetchedOptionPrintMap]);
const mergedFlowPacketMap = useMemo(() => {
const merged = new Map(flowPacketMap);
for (const [key, value] of fetchedFlowPacketMap) {
merged.set(key, value);
}
return merged;
}, [flowPacketMap, fetchedFlowPacketMap]);
const mergedEquityJoinMap = useMemo(() => {
const merged = new Map(equityJoinMap);
for (const [key, value] of fetchedEquityJoinMap) {
merged.set(key, value);
}
return merged;
}, [equityJoinMap, fetchedEquityJoinMap]);
useEffect(() => {
if (!selectedAlert || mode !== "live") {
return;
}
const packetId = selectedAlert.evidence_refs[0];
if (packetId && !mergedFlowPacketMap.has(packetId)) {
void fetch(buildApiUrl(`/flow/packets/${encodeURIComponent(packetId)}`))
.then((response) => response.json())
.then((payload: { data?: FlowPacket | null }) => {
if (!payload.data) {
return;
}
setFetchedFlowPacketMap((prev) => new Map(prev).set(payload.data!.id, payload.data!));
})
.catch((error) => console.warn("Failed to fetch flow packet evidence", error));
}
const missingPrintIds = selectedAlert.evidence_refs.filter(
(id) => !mergedFlowPacketMap.has(id) && !mergedOptionPrintMap.has(id)
);
if (missingPrintIds.length > 0) {
const url = new URL(buildApiUrl("/option-prints/by-trace"));
for (const traceId of missingPrintIds) {
url.searchParams.append("trace_id", traceId);
}
void fetch(url.toString())
.then((response) => response.json())
.then((payload: { data?: OptionPrint[] }) => {
const next = new Map<string, OptionPrint>();
for (const item of payload.data ?? []) {
next.set(item.trace_id, item);
}
if (next.size > 0) {
setFetchedOptionPrintMap((prev) => new Map([...prev, ...next]));
}
})
.catch((error) => console.warn("Failed to fetch option print evidence", error));
}
}, [selectedAlert, mode, mergedFlowPacketMap, mergedOptionPrintMap]);
useEffect(() => {
if (!selectedDarkEvent || mode !== "live") {
return;
}
const missingIds = selectedDarkEvent.evidence_refs.filter((id) => !mergedEquityJoinMap.has(id));
if (missingIds.length === 0) {
return;
}
const url = new URL(buildApiUrl("/equity-joins/by-id"));
for (const id of missingIds) {
url.searchParams.append("id", id);
}
void fetch(url.toString())
.then((response) => response.json())
.then((payload: { data?: EquityPrintJoin[] }) => {
const next = new Map<string, EquityPrintJoin>();
for (const item of payload.data ?? []) {
next.set(item.id, item);
}
if (next.size > 0) {
setFetchedEquityJoinMap((prev) => new Map([...prev, ...next]));
}
})
.catch((error) => console.warn("Failed to fetch dark evidence joins", error));
}, [selectedDarkEvent, mode, mergedEquityJoinMap]);
const selectedEvidence = useMemo((): EvidenceItem[] => {
if (!selectedAlert) {
return [];
}
return selectedAlert.evidence_refs.map((id) => {
const packet = mergedFlowPacketMap.get(id);
if (packet) {
return { kind: "flow", id, packet };
}
const print = mergedOptionPrintMap.get(id);
if (print) {
return { kind: "print", id, print };
}
return { kind: "unknown", id };
});
}, [selectedAlert, mergedFlowPacketMap, mergedOptionPrintMap]);
const selectedFlowPacket = useMemo(() => {
if (!selectedAlert) {
return null;
}
const packetId = selectedAlert.evidence_refs[0];
return packetId ? mergedFlowPacketMap.get(packetId) ?? null : null;
}, [selectedAlert, mergedFlowPacketMap]);
const selectedDarkEvidence = useMemo((): DarkEvidenceItem[] => {
if (!selectedDarkEvent) {
return [];
}
return selectedDarkEvent.evidence_refs.map((id) => {
const join = mergedEquityJoinMap.get(id);
if (join) {
return { kind: "join", id, join };
}
return { kind: "unknown", id };
});
}, [selectedDarkEvent, mergedEquityJoinMap]);
const selectedDarkUnderlying = useMemo(() => {
if (!selectedDarkEvent) {
return null;
}
return inferDarkUnderlying(selectedDarkEvent, equityPrintMap, mergedEquityJoinMap);
}, [selectedDarkEvent, mergedEquityJoinMap, equityPrintMap]);
useEffect(() => {
if (mode !== "live") {
setSelectedAlert(null);
}
setSelectedDarkEvent(null);
setSelectedClassifierHit(null);
}, [mode]);
const extractPacketContract = useCallback((packet: FlowPacket): string => {
const contract = packet.features.option_contract_id;
if (typeof contract === "string") {
return contract;
}
const match = packet.id.match(/^flowpacket:([^:]+):/);
return match?.[1] ?? packet.id;
}, []);
const extractUnderlyingFromTrace = useCallback((traceId: string): string | null => {
const match = traceId.match(/flowpacket:([^:]+):/);
if (!match?.[1]) {
return null;
}
return extractUnderlying(match[1]);
}, []);
const extractPacketIdFromClassifierHitTrace = useCallback((traceId: string): string | null => {
const idx = traceId.indexOf("flowpacket:");
if (idx < 0) {
return null;
}
return traceId.slice(idx);
}, []);
const selectedClassifierPacketId = useMemo(() => {
if (!selectedClassifierHit) {
return null;
}
return extractPacketIdFromClassifierHitTrace(selectedClassifierHit.trace_id);
}, [extractPacketIdFromClassifierHitTrace, selectedClassifierHit]);
useEffect(() => {
if (!selectedClassifierPacketId || mode !== "live") {
return;
}
if (!mergedFlowPacketMap.has(selectedClassifierPacketId)) {
void fetch(buildApiUrl(`/flow/packets/${encodeURIComponent(selectedClassifierPacketId)}`))
.then((response) => response.json())
.then((payload: { data?: FlowPacket | null }) => {
if (!payload.data) {
return;
}
setFetchedFlowPacketMap((prev) => new Map(prev).set(payload.data!.id, payload.data!));
})
.catch((error) => console.warn("Failed to fetch classifier flow packet", error));
}
}, [selectedClassifierPacketId, mode, mergedFlowPacketMap]);
const selectedClassifierFlowPacket = useMemo(() => {
if (!selectedClassifierPacketId) {
return null;
}
return mergedFlowPacketMap.get(selectedClassifierPacketId) ?? null;
}, [mergedFlowPacketMap, selectedClassifierPacketId]);
const selectedClassifierEvidence = useMemo((): EvidenceItem[] => {
if (!selectedClassifierHit) {
return [];
}
if (!selectedClassifierPacketId) {
return [];
}
const packet = mergedFlowPacketMap.get(selectedClassifierPacketId);
if (!packet) {
return [];
}
return packet.members.map((id) => {
const print = mergedOptionPrintMap.get(id);
if (print) {
return { kind: "print", id, print };
}
return { kind: "unknown", id };
});
}, [mergedFlowPacketMap, mergedOptionPrintMap, selectedClassifierHit, selectedClassifierPacketId]);
const inferAlertUnderlying = useCallback(
(alert: AlertEvent): string | null => {
const fromTrace = extractUnderlyingFromTrace(alert.trace_id);
if (fromTrace) {
return fromTrace;
}
const packetId = alert.evidence_refs[0];
if (packetId) {
const packet = mergedFlowPacketMap.get(packetId);
if (packet) {
return extractUnderlying(extractPacketContract(packet));
}
}
for (const ref of alert.evidence_refs) {
const print = mergedOptionPrintMap.get(ref);
if (print) {
return extractUnderlying(print.option_contract_id);
}
}
return null;
},
[extractPacketContract, extractUnderlyingFromTrace, mergedFlowPacketMap, mergedOptionPrintMap]
);
const matchesTicker = useCallback(
(value: string | null) => {
if (tickerSet.size === 0) {
return true;
}
if (!value) {
return false;
}
return tickerSet.has(value.toUpperCase());
},
[tickerSet]
);
const filteredOptions = useMemo(() => {
if (tickerSet.size === 0) {
return optionsFeed.items;
}
return optionsFeed.items.filter((print) =>
matchesTicker(extractUnderlying(normalizeContractId(print.option_contract_id)))
);
}, [optionsFeed.items, matchesTicker, tickerSet]);
const filteredEquities = useMemo(() => {
if (tickerSet.size === 0) {
return equitiesFeed.items;
}
return equitiesFeed.items.filter((print) => matchesTicker(print.underlying_id));
}, [equitiesFeed.items, matchesTicker, tickerSet]);
const filteredInferredDark = useMemo(() => {
if (tickerSet.size === 0) {
return inferredDarkFeed.items;
}
return inferredDarkFeed.items.filter((event) => {
const underlying = inferDarkUnderlying(event, equityPrintMap, mergedEquityJoinMap);
return matchesTicker(underlying);
});
}, [mergedEquityJoinMap, equityPrintMap, inferredDarkFeed.items, matchesTicker, tickerSet]);
const filteredFlow = useMemo(() => {
if (tickerSet.size === 0) {
return flowFeed.items;
}
return flowFeed.items.filter((packet) =>
matchesTicker(extractUnderlying(extractPacketContract(packet)))
);
}, [flowFeed.items, extractPacketContract, matchesTicker, tickerSet]);
const filteredAlerts = useMemo(() => {
if (tickerSet.size === 0) {
return alertsFeed.items;
}
return alertsFeed.items.filter((alert) => matchesTicker(inferAlertUnderlying(alert)));
}, [alertsFeed.items, inferAlertUnderlying, matchesTicker, tickerSet]);
const filteredClassifierHits = useMemo(() => {
if (tickerSet.size === 0) {
return classifierHitsFeed.items;
}
return classifierHitsFeed.items.filter((hit) => {
const underlying = extractUnderlyingFromTrace(hit.trace_id);
return matchesTicker(underlying);
});
}, [classifierHitsFeed.items, extractUnderlyingFromTrace, matchesTicker, tickerSet]);
const chartClassifierHits = useMemo(() => {
const desired = chartTicker.toUpperCase();
return classifierHitsFeed.items
.filter((hit) => extractUnderlyingFromTrace(hit.trace_id) === desired)
.sort((a, b) => {
const delta = a.source_ts - b.source_ts;
if (delta !== 0) {
return delta;
}
return a.seq - b.seq;
});
}, [chartTicker, classifierHitsFeed.items, extractUnderlyingFromTrace]);
const chartInferredDark = useMemo(() => {
const desired = chartTicker.toUpperCase();
return inferredDarkFeed.items
.filter((event) => inferDarkUnderlying(event, equityPrintMap, mergedEquityJoinMap) === desired)
.sort((a, b) => {
const delta = a.source_ts - b.source_ts;
if (delta !== 0) {
return delta;
}
return a.seq - b.seq;
});
}, [chartTicker, inferredDarkFeed.items, mergedEquityJoinMap, equityPrintMap]);
const findAlertForClassifierHit = useCallback(
(hit: ClassifierHitEvent): AlertEvent | null => {
const packetId = extractPacketIdFromClassifierHitTrace(hit.trace_id);
if (!packetId) {
return null;
}
const desiredTrace = `alert:${packetId}`;
return (
alertsFeed.items.find(
(item) => item.trace_id === desiredTrace || item.evidence_refs[0] === packetId
) ?? null
);
},
[alertsFeed.items, extractPacketIdFromClassifierHitTrace]
);
const openFromClassifierHit = useCallback(
(hit: ClassifierHitEvent) => {
const alert = findAlertForClassifierHit(hit);
if (alert) {
setSelectedClassifierHit(null);
setSelectedDarkEvent(null);
setSelectedAlert(alert);
return;
}
setSelectedAlert(null);
setSelectedDarkEvent(null);
setSelectedClassifierHit(hit);
},
[findAlertForClassifierHit]
);
const handleClassifierMarkerClick = useCallback(
(hit: ClassifierHitEvent) => {
openFromClassifierHit(hit);
},
[openFromClassifierHit]
);
const handleDarkMarkerClick = useCallback((event: InferredDarkEvent) => {
setSelectedAlert(null);
setSelectedClassifierHit(null);
setSelectedDarkEvent(event);
}, []);
const lastSeen = useMemo(() => {
return [
optionsFeed.lastUpdate,
equitiesFeed.lastUpdate,
inferredDarkFeed.lastUpdate,
flowFeed.lastUpdate,
alertsFeed.lastUpdate,
classifierHitsFeed.lastUpdate
]
.filter((value): value is number => value !== null)
.sort((a, b) => b - a)[0] ?? null;
}, [
optionsFeed.lastUpdate,
equitiesFeed.lastUpdate,
inferredDarkFeed.lastUpdate,
flowFeed.lastUpdate,
alertsFeed.lastUpdate,
classifierHitsFeed.lastUpdate
]);
return {
mode,
setMode,
replaySource,
setReplaySource,
selectedAlert,
setSelectedAlert,
selectedDarkEvent,
setSelectedDarkEvent,
selectedClassifierHit,
setSelectedClassifierHit,
filterInput,
setFilterInput,
chartIntervalMs,
setChartIntervalMs,
optionsScroll,
equitiesScroll,
flowScroll,
darkScroll,
alertsScroll,
classifierScroll,
options: optionsFeed,
equities: equitiesFeed,
equityJoins: equityJoinsFeed,
nbbo: nbboFeed,
inferredDark: inferredDarkFeed,
flow: flowFeed,
alerts: alertsFeed,
classifierHits: classifierHitsFeed,
liveSession,
activeTickers,
tickerSet,
chartTicker,
nbboMap,
optionPrintMap: mergedOptionPrintMap,
equityPrintMap,
equityJoinMap: mergedEquityJoinMap,
flowPacketMap: mergedFlowPacketMap,
selectedEvidence,
selectedFlowPacket,
selectedDarkEvidence,
selectedDarkUnderlying,
selectedClassifierPacketId,
selectedClassifierFlowPacket,
selectedClassifierEvidence,
filteredOptions,
filteredEquities,
filteredInferredDark,
filteredFlow,
filteredAlerts,
filteredClassifierHits,
chartClassifierHits,
chartInferredDark,
openFromClassifierHit,
handleClassifierMarkerClick,
handleDarkMarkerClick,
lastSeen,
toggleMode: () => {
setMode((prev) => (prev === "live" ? "replay" : "live"));
}
};
};
type TerminalState = ReturnType<typeof useTerminalState>;
const TerminalContext = createContext<TerminalState | null>(null);
const useTerminal = (): TerminalState => {
const value = useContext(TerminalContext);
if (!value) {
throw new Error("Terminal context missing");
}
return value;
};
const NAV_ITEMS = [
{ href: "/", label: "Overview" },
{ href: "/tape", label: "Tape" },
{ href: "/signals", label: "Signals" },
{ href: "/charts", label: "Charts" },
{ href: "/replay", label: "Replay" }
];
type PageFrameProps = {
title: string;
actions?: ReactNode;
children: ReactNode;
};
const PageFrame = ({ title, actions, children }: PageFrameProps) => {
return (
<div className="page-shell">
<header className="page-header">
<h1 className="page-title">{title}</h1>
{actions ? <div className="page-actions">{actions}</div> : null}
</header>
{children}
</div>
);
};
type PaneProps = {
title: string;
status?: ReactNode;
actions?: ReactNode;
className?: string;
children: ReactNode;
};
const Pane = ({ title, status, actions, className = "", children }: PaneProps) => {
const classes = ["terminal-pane", className].filter(Boolean).join(" ");
return (
<section className={classes}>
<div className="terminal-pane-head">
<div className="terminal-pane-title-row">
<h2 className="terminal-pane-title">{title}</h2>
{status ? <div className="terminal-pane-status">{status}</div> : null}
</div>
{actions ? <div className="terminal-pane-actions">{actions}</div> : null}
</div>
<div className="terminal-pane-body">{children}</div>
</section>
);
};
const ShellMetricStrip = () => {
const state = useTerminal();
const focus = state.activeTickers.length > 0 ? state.activeTickers.join(", ") : "ALL";
const replay = state.replaySource ? state.replaySource.toUpperCase() : "AUTO";
return (
<div className="shell-metrics">
<div className="shell-metric">
<span className="shell-metric-label">Mode</span>
<span className="shell-metric-value">{state.mode === "live" ? "LIVE" : "REPLAY"}</span>
</div>
<div className="shell-metric">
<span className="shell-metric-label">Focus</span>
<span className="shell-metric-value">{focus}</span>
</div>
<div className="shell-metric">
<span className="shell-metric-label">Source</span>
<span className="shell-metric-value">{replay}</span>
</div>
<div className="shell-metric">
<span className="shell-metric-label">Last</span>
<span className="shell-metric-value">
{state.lastSeen ? formatTime(state.lastSeen) : "WAITING"}
</span>
</div>
</div>
);
};
const FeedStatusBar = () => {
const state = useTerminal();
const feeds = [
{ label: "Opt", feed: state.options },
{ label: "Eq", feed: state.equities },
{ label: "Flow", feed: state.flow },
{ label: "Alert", feed: state.alerts },
{ label: "Rule", feed: state.classifierHits },
{ label: "Dark", feed: state.inferredDark }
];
return (
<div className="feed-status-bar">
{feeds.map(({ label, feed }) => (
<div className={`feed-status feed-status-${feed.status}`} key={label}>
<span className="feed-status-dot" />
<span>{label}</span>
</div>
))}
</div>
);
};
const OverviewBrief = () => {
const state = useTerminal();
return (
<div className="overview-strip">
<div className="overview-cell">
<span className="overview-label">Options</span>
<strong>{formatFlowMetric(state.filteredOptions.length)}</strong>
</div>
<div className="overview-cell">
<span className="overview-label">Equities</span>
<strong>{formatFlowMetric(state.filteredEquities.length)}</strong>
</div>
<div className="overview-cell">
<span className="overview-label">Flow</span>
<strong>{formatFlowMetric(state.filteredFlow.length)}</strong>
</div>
<div className="overview-cell">
<span className="overview-label">Alerts</span>
<strong>{formatFlowMetric(state.filteredAlerts.length)}</strong>
</div>
<div className="overview-cell">
<span className="overview-label">Rules</span>
<strong>{formatFlowMetric(state.filteredClassifierHits.length)}</strong>
</div>
<div className="overview-cell">
<span className="overview-label">Dark</span>
<strong>{formatFlowMetric(state.filteredInferredDark.length)}</strong>
</div>
</div>
);
};
type OptionsPaneProps = {
limit?: number;
};
const OptionsPane = ({ limit }: OptionsPaneProps) => {
const state = useTerminal();
const items = limit ? state.filteredOptions.slice(0, limit) : state.filteredOptions;
return (
<Pane
title="Options"
status={
<TapeStatus
status={state.options.status}
lastUpdate={state.options.lastUpdate}
replayTime={state.options.replayTime}
replayComplete={state.options.replayComplete}
paused={state.options.paused}
dropped={state.options.dropped}
mode={state.mode}
/>
}
actions={
<TapeControls
paused={state.options.paused}
onTogglePause={state.options.togglePause}
isAtTop={state.optionsScroll.isAtTop}
missed={state.optionsScroll.missed}
onJump={state.optionsScroll.jumpToTop}
/>
}
>
<div className="list terminal-list" ref={state.optionsScroll.listRef}>
{items.length === 0 ? (
<div className="empty">
{state.tickerSet.size > 0
? "No option prints match the current filter."
: state.mode === "live"
? "No option prints yet. Start ingest-options."
: "Replay queue empty. Ensure ClickHouse has data."}
</div>
) : (
items.map((print) => {
const contractId = normalizeContractId(print.option_contract_id);
const quote = state.nbboMap.get(contractId);
const nbboAge = quote ? Math.abs(print.ts - quote.ts) : null;
const nbboStale = nbboAge !== null && nbboAge > NBBO_MAX_AGE_MS_SAFE;
const nbboMid = quote ? (quote.bid + quote.ask) / 2 : null;
const nbboSide = classifyNbboSide(print.price, quote);
const notional = print.price * print.size * 100;
return (
<div className="row" key={`${print.trace_id}-${print.seq}`}>
<div>
<div className="contract">{formatContractLabel(contractId)}</div>
<div className="meta">
<span>${formatPrice(print.price)}</span>
<span>{formatSize(print.size)}x</span>
<span>{print.exchange}</span>
<span>Notional ${formatUsd(notional)}</span>
{print.conditions?.length ? <span>{print.conditions.join(", ")}</span> : null}
</div>
{quote ? (
<div className="meta nbbo-meta">
<span>Bid ${formatPrice(quote.bid)}</span>
<span>Ask ${formatPrice(quote.ask)}</span>
<span>Mid ${formatPrice(nbboMid ?? 0)}</span>
<span>{Math.round(nbboAge ?? 0)}ms</span>
{nbboSide ? (
<span className="nbbo-side" tabIndex={0} aria-label="NBBO side legend">
<span className={`nbbo-tag nbbo-tag-${nbboSide.toLowerCase()}`}>
{nbboSide}
</span>
<span className="nbbo-tooltip" role="tooltip">
<span className="nbbo-tooltip-row">
<span className="nbbo-tag nbbo-tag-a">A</span>
<span>Ask</span>
</span>
<span className="nbbo-tooltip-row">
<span className="nbbo-tag nbbo-tag-aa">AA</span>
<span>Above Ask</span>
</span>
<span className="nbbo-tooltip-row">
<span className="nbbo-tag nbbo-tag-b">B</span>
<span>Bid</span>
</span>
<span className="nbbo-tooltip-row">
<span className="nbbo-tag nbbo-tag-bb">BB</span>
<span>Below Bid</span>
</span>
</span>
</span>
) : null}
{nbboStale ? <span className="pill nbbo-stale">Stale</span> : null}
</div>
) : (
<div className="meta nbbo-meta">
<span className="pill nbbo-missing">NBBO missing</span>
</div>
)}
</div>
<div className="time">{formatTime(print.ts)}</div>
</div>
);
})
)}
</div>
</Pane>
);
};
type EquitiesPaneProps = {
limit?: number;
};
const EquitiesPane = ({ limit }: EquitiesPaneProps) => {
const state = useTerminal();
const items = limit ? state.filteredEquities.slice(0, limit) : state.filteredEquities;
return (
<Pane
title="Equities"
status={
<TapeStatus
status={state.equities.status}
lastUpdate={state.equities.lastUpdate}
replayTime={state.equities.replayTime}
replayComplete={state.equities.replayComplete}
paused={state.equities.paused}
dropped={state.equities.dropped}
mode={state.mode}
/>
}
actions={
<TapeControls
paused={state.equities.paused}
onTogglePause={state.equities.togglePause}
isAtTop={state.equitiesScroll.isAtTop}
missed={state.equitiesScroll.missed}
onJump={state.equitiesScroll.jumpToTop}
/>
}
>
<div className="list terminal-list" ref={state.equitiesScroll.listRef}>
{items.length === 0 ? (
<div className="empty">
{state.tickerSet.size > 0
? "No equity prints match the current filter."
: state.mode === "live"
? "No equity prints yet. Start ingest-equities."
: "Replay queue empty. Ensure ClickHouse has data."}
</div>
) : (
items.map((print) => (
<div className="row" key={`${print.trace_id}-${print.seq}`}>
<div>
<div className="contract">{print.underlying_id}</div>
<div className="meta">
<span>${formatPrice(print.price)}</span>
<span>{formatSize(print.size)}x</span>
<span>{print.exchange}</span>
{print.offExchangeFlag ? (
<span className="flag">Off-Ex</span>
) : (
<span className="flag flag-muted">Lit</span>
)}
</div>
</div>
<div className="time">{formatTime(print.ts)}</div>
</div>
))
)}
</div>
</Pane>
);
};
type FlowPaneProps = {
limit?: number;
title?: string;
};
const FlowPane = ({ limit, title = "Flow" }: FlowPaneProps) => {
const state = useTerminal();
const items = limit ? state.filteredFlow.slice(0, limit) : state.filteredFlow;
return (
<Pane
title={title}
status={
<TapeStatus
status={state.flow.status}
lastUpdate={state.flow.lastUpdate}
replayTime={state.flow.replayTime}
replayComplete={state.flow.replayComplete}
paused={state.flow.paused}
dropped={state.flow.dropped}
mode={state.mode}
/>
}
actions={
<TapeControls
paused={state.flow.paused}
onTogglePause={state.flow.togglePause}
isAtTop={state.flowScroll.isAtTop}
missed={state.flowScroll.missed}
onJump={state.flowScroll.jumpToTop}
/>
}
>
<div className="list terminal-list" ref={state.flowScroll.listRef}>
{items.length === 0 ? (
<div className="empty">
{state.tickerSet.size > 0
? "No flow packets match the current filter."
: state.mode === "live"
? "No flow packets yet. Start compute."
: "Replay queue empty. Ensure ClickHouse has data."}
</div>
) : (
items.map((packet) => {
const features = packet.features ?? {};
const contract = String(features.option_contract_id ?? packet.id ?? "unknown");
const count = parseNumber(features.count, packet.members.length);
const totalSize = parseNumber(features.total_size, 0);
const totalNotional = parseNumber(features.total_notional, Number.NaN);
const notional = Number.isFinite(totalNotional)
? totalNotional
: parseNumber(features.total_premium, 0) * 100;
const startTs = parseNumber(features.start_ts, packet.source_ts);
const endTs = parseNumber(features.end_ts, startTs);
const windowMs = parseNumber(features.window_ms, 0);
const structureType =
typeof features.structure_type === "string" ? features.structure_type : "";
const structureLegs = parseNumber(features.structure_legs, 0);
const structureRights =
typeof features.structure_rights === "string" ? features.structure_rights : "";
const structureStrikes = parseNumber(features.structure_strikes, 0);
const nbboBid = parseNumber(features.nbbo_bid, Number.NaN);
const nbboAsk = parseNumber(features.nbbo_ask, Number.NaN);
const nbboMid = parseNumber(features.nbbo_mid, Number.NaN);
const nbboSpread = parseNumber(features.nbbo_spread, Number.NaN);
const aggressiveBuyRatio = parseNumber(features.nbbo_aggressive_buy_ratio, Number.NaN);
const aggressiveSellRatio = parseNumber(
features.nbbo_aggressive_sell_ratio,
Number.NaN
);
const aggressiveCoverage = parseNumber(features.nbbo_coverage_ratio, Number.NaN);
const insideRatio = parseNumber(features.nbbo_inside_ratio, Number.NaN);
const nbboAge = parseNumber(packet.join_quality.nbbo_age_ms, Number.NaN);
const nbboStale = parseNumber(packet.join_quality.nbbo_stale, 0) > 0;
const nbboMissing = parseNumber(packet.join_quality.nbbo_missing, 0) > 0;
return (
<div className="row" key={packet.id}>
<div>
<div className="contract">{contract}</div>
<div className="meta flow-meta">
<span>{formatFlowMetric(count)} prints</span>
<span>{formatFlowMetric(totalSize)} size</span>
<span>Notional ${formatUsd(notional)}</span>
{windowMs > 0 ? <span>{formatFlowMetric(windowMs, "ms")}</span> : null}
{structureType ? (
<span className="pill structure-tag">
{structureType.replace(/_/g, " ")}
{structureRights ? ` ${structureRights}` : ""}
{structureLegs > 0 ? ` ${structureLegs}L` : ""}
{structureStrikes > 0 ? ` ${structureStrikes}K` : ""}
</span>
) : null}
{Number.isFinite(aggressiveCoverage) && aggressiveCoverage > 0 ? (
<span className="pill aggressor-tag">
Agg {formatPct(aggressiveBuyRatio)} / {formatPct(aggressiveSellRatio)}
{Number.isFinite(insideRatio) && insideRatio > 0
? ` · In ${formatPct(insideRatio)}`
: ""}
{` · ${formatPct(aggressiveCoverage)} cov`}
</span>
) : null}
{Number.isFinite(nbboBid) && Number.isFinite(nbboAsk) ? (
<span>
NBBO ${formatPrice(nbboBid)} x ${formatPrice(nbboAsk)}
</span>
) : null}
{Number.isFinite(nbboMid) ? <span>Mid ${formatPrice(nbboMid)}</span> : null}
{Number.isFinite(nbboSpread) ? (
<span>Spread ${formatPrice(nbboSpread)}</span>
) : null}
{Number.isFinite(nbboAge) ? <span>{Math.round(nbboAge)}ms</span> : null}
{nbboStale ? <span className="pill nbbo-stale">NBBO stale</span> : null}
{nbboMissing ? <span className="pill nbbo-missing">NBBO missing</span> : null}
</div>
</div>
<div className="time">
{formatTime(startTs)} {formatTime(endTs)}
</div>
</div>
);
})
)}
</div>
</Pane>
);
};
type AlertsPaneProps = {
limit?: number;
withStrip?: boolean;
};
const AlertsPane = ({ limit, withStrip = false }: AlertsPaneProps) => {
const state = useTerminal();
const items = limit ? state.filteredAlerts.slice(0, limit) : state.filteredAlerts;
return (
<Pane
title="Alerts"
status={
<TapeStatus
status={state.alerts.status}
lastUpdate={state.alerts.lastUpdate}
replayTime={state.alerts.replayTime}
replayComplete={state.alerts.replayComplete}
paused={state.alerts.paused}
dropped={state.alerts.dropped}
mode={state.mode}
/>
}
actions={
<TapeControls
paused={state.alerts.paused}
onTogglePause={state.alerts.togglePause}
isAtTop={state.alertsScroll.isAtTop}
missed={state.alertsScroll.missed}
onJump={state.alertsScroll.jumpToTop}
/>
}
>
{withStrip ? <AlertSeverityStrip alerts={state.filteredAlerts} /> : null}
<div className="list terminal-list" ref={state.alertsScroll.listRef}>
{items.length === 0 ? (
<div className="empty">
{state.tickerSet.size > 0
? "No alerts match the current filter."
: state.mode === "live"
? "No alerts yet. Start compute."
: "Replay queue empty. Ensure ClickHouse has data."}
</div>
) : (
items.map((alert) => {
const primary = alert.hits[0];
const direction = primary ? normalizeDirection(primary.direction) : "neutral";
return (
<button
className="row row-button"
key={`${alert.trace_id}-${alert.seq}`}
type="button"
onClick={() => {
state.setSelectedDarkEvent(null);
state.setSelectedClassifierHit(null);
state.setSelectedAlert(alert);
}}
>
<div>
<div className="contract">
{primary ? humanizeClassifierId(primary.classifier_id) : "Alert"}
</div>
<div className="meta">
<span className={`pill severity-${alert.severity}`}>{alert.severity}</span>
<span>Score {Math.round(alert.score)}</span>
<span>{alert.hits.length} hits</span>
{primary ? (
<span className={`pill direction-${direction}`}>{direction}</span>
) : null}
</div>
{primary?.explanations?.[0] ? (
<div className="note">{primary.explanations[0]}</div>
) : null}
</div>
<div className="time">{formatTime(alert.source_ts)}</div>
</button>
);
})
)}
</div>
</Pane>
);
};
type ClassifierPaneProps = {
limit?: number;
};
const ClassifierPane = ({ limit }: ClassifierPaneProps) => {
const state = useTerminal();
const items = limit ? state.filteredClassifierHits.slice(0, limit) : state.filteredClassifierHits;
return (
<Pane
title="Rules"
status={
<TapeStatus
status={state.classifierHits.status}
lastUpdate={state.classifierHits.lastUpdate}
replayTime={state.classifierHits.replayTime}
replayComplete={state.classifierHits.replayComplete}
paused={state.classifierHits.paused}
dropped={state.classifierHits.dropped}
mode={state.mode}
/>
}
actions={
<TapeControls
paused={state.classifierHits.paused}
onTogglePause={state.classifierHits.togglePause}
isAtTop={state.classifierScroll.isAtTop}
missed={state.classifierScroll.missed}
onJump={state.classifierScroll.jumpToTop}
/>
}
>
<div className="list terminal-list" ref={state.classifierScroll.listRef}>
{items.length === 0 ? (
<div className="empty">
{state.tickerSet.size > 0
? "No classifier hits match the current filter."
: state.mode === "live"
? "No classifier hits yet. Start compute."
: "Replay queue empty. Ensure ClickHouse has data."}
</div>
) : (
items.map((hit) => {
const direction = normalizeDirection(hit.direction);
return (
<button
className="row row-button"
key={`${hit.trace_id}-${hit.seq}`}
type="button"
onClick={() => state.openFromClassifierHit(hit)}
>
<div>
<div className="contract">{humanizeClassifierId(hit.classifier_id)}</div>
<div className="meta">
<span className={`pill direction-${direction}`}>{direction}</span>
<span>Confidence {formatConfidence(hit.confidence)}</span>
</div>
{hit.explanations?.[0] ? <div className="note">{hit.explanations[0]}</div> : null}
</div>
<div className="time">{formatTime(hit.source_ts)}</div>
</button>
);
})
)}
</div>
</Pane>
);
};
type DarkPaneProps = {
limit?: number;
};
const DarkPane = ({ limit }: DarkPaneProps) => {
const state = useTerminal();
const items = limit ? state.filteredInferredDark.slice(0, limit) : state.filteredInferredDark;
return (
<Pane
title="Dark"
status={
<TapeStatus
status={state.inferredDark.status}
lastUpdate={state.inferredDark.lastUpdate}
replayTime={state.inferredDark.replayTime}
replayComplete={state.inferredDark.replayComplete}
paused={state.inferredDark.paused}
dropped={state.inferredDark.dropped}
mode={state.mode}
/>
}
actions={
<TapeControls
paused={state.inferredDark.paused}
onTogglePause={state.inferredDark.togglePause}
isAtTop={state.darkScroll.isAtTop}
missed={state.darkScroll.missed}
onJump={state.darkScroll.jumpToTop}
/>
}
>
<div className="list terminal-list" ref={state.darkScroll.listRef}>
{items.length === 0 ? (
<div className="empty">
{state.tickerSet.size > 0
? "No inferred dark events match the current filter."
: state.mode === "live"
? "No inferred dark events yet. Start compute."
: "Replay queue empty. Ensure ClickHouse has data."}
</div>
) : (
items.map((event) => {
const underlying = inferDarkUnderlying(event, state.equityPrintMap, state.equityJoinMap);
const evidenceCount = event.evidence_refs.length;
return (
<button
className="row row-button"
key={`${event.trace_id}-${event.seq}`}
type="button"
onClick={() => {
state.setSelectedAlert(null);
state.setSelectedClassifierHit(null);
state.setSelectedDarkEvent(event);
}}
>
<div>
<div className="contract">{humanizeClassifierId(event.type)}</div>
<div className="meta">
{underlying ? <span>{underlying}</span> : <span className="pill">Unknown</span>}
<span>Confidence {formatConfidence(event.confidence)}</span>
<span>Evidence {evidenceCount}</span>
</div>
{underlying ? null : <div className="note">Underlying not in current equity cache.</div>}
</div>
<div className="time">{formatTime(event.source_ts)}</div>
</button>
);
})
)}
</div>
</Pane>
);
};
type ChartPaneProps = {
title?: string;
};
const ChartPane = ({ title = "Chart" }: ChartPaneProps) => {
const state = useTerminal();
return (
<Pane
title={title}
actions={
<div className="chart-controls">
<div className="chart-intervals">
{CANDLE_INTERVALS.map((interval) => (
<button
key={interval.ms}
className={`interval-button${interval.ms === state.chartIntervalMs ? " active" : ""}`}
type="button"
onClick={() => state.setChartIntervalMs(interval.ms)}
>
{interval.label}
</button>
))}
</div>
<span className="chart-hint">{state.chartTicker}</span>
</div>
}
>
<CandleChart
ticker={state.chartTicker}
intervalMs={state.chartIntervalMs}
mode={state.mode}
replayTime={state.equities.replayTime}
liveCandles={state.liveSession.chartCandles}
liveOverlayPrints={state.liveSession.chartOverlay}
classifierHits={state.chartClassifierHits}
inferredDark={state.chartInferredDark}
onClassifierHitClick={state.handleClassifierMarkerClick}
onInferredDarkClick={state.handleDarkMarkerClick}
/>
</Pane>
);
};
const FocusPane = () => {
const state = useTerminal();
const hits = state.chartClassifierHits.slice(-10).reverse();
const dark = state.chartInferredDark.slice(-10).reverse();
return (
<Pane title="Focus">
<div className="focus-stack">
<div className="focus-block">
<div className="focus-label">Ticker</div>
<div className="focus-value">{state.chartTicker}</div>
</div>
<div className="focus-block">
<div className="focus-label">Rules</div>
{hits.length === 0 ? (
<div className="empty">No rule hits for {state.chartTicker}.</div>
) : (
<div className="list terminal-list terminal-list-compact">
{hits.map((hit) => (
<button
className="row row-button"
key={`${hit.trace_id}-${hit.seq}`}
type="button"
onClick={() => state.openFromClassifierHit(hit)}
>
<div>
<div className="contract">{humanizeClassifierId(hit.classifier_id)}</div>
<div className="meta">
<span className={`pill direction-${normalizeDirection(hit.direction)}`}>
{normalizeDirection(hit.direction)}
</span>
<span>{formatTime(hit.source_ts)}</span>
</div>
</div>
</button>
))}
</div>
)}
</div>
<div className="focus-block">
<div className="focus-label">Dark</div>
{dark.length === 0 ? (
<div className="empty">No inferred dark events for {state.chartTicker}.</div>
) : (
<div className="list terminal-list terminal-list-compact">
{dark.map((event) => (
<button
className="row row-button"
key={`${event.trace_id}-${event.seq}`}
type="button"
onClick={() => state.handleDarkMarkerClick(event)}
>
<div>
<div className="contract">{humanizeClassifierId(event.type)}</div>
<div className="meta">
<span>Confidence {formatConfidence(event.confidence)}</span>
<span>{formatTime(event.source_ts)}</span>
</div>
</div>
</button>
))}
</div>
)}
</div>
</div>
</Pane>
);
};
const ReplayConsole = () => {
const state = useTerminal();
const replayActive = state.mode === "replay";
return (
<Pane
title="Console"
actions={
<button className="terminal-button terminal-button-primary" type="button" onClick={state.toggleMode}>
{replayActive ? "Switch Live" : "Switch Replay"}
</button>
}
>
<div className="replay-matrix">
<div className="overview-cell">
<span className="overview-label">Mode</span>
<strong>{replayActive ? "Replay" : "Live"}</strong>
</div>
<div className="overview-cell">
<span className="overview-label">Source</span>
<strong>{state.replaySource ? state.replaySource.toUpperCase() : "Auto"}</strong>
</div>
<div className="overview-cell">
<span className="overview-label">Replay Clock</span>
<strong>{state.options.replayTime ? formatTime(state.options.replayTime) : "—"}</strong>
</div>
<div className="overview-cell">
<span className="overview-label">Packets</span>
<strong>{formatFlowMetric(state.filteredFlow.length)}</strong>
</div>
</div>
</Pane>
);
};
export function TerminalAppShell({ children }: { children: ReactNode }) {
const state = useTerminalState();
const pathname = usePathname();
return (
<TerminalContext.Provider value={state}>
<div className="terminal-shell">
<aside className="terminal-rail">
<div className="terminal-brand">
<IslandflowLogo className="terminal-brand-mark" />
<span className="terminal-brand-name">Islandflow</span>
</div>
<nav className="terminal-nav">
{NAV_ITEMS.map((item) => {
const active = pathname === item.href;
return (
<Link
className={`terminal-nav-link${active ? " terminal-nav-link-active" : ""}`}
href={item.href}
key={item.href}
>
{item.label}
</Link>
);
})}
</nav>
<ShellMetricStrip />
</aside>
<div className="terminal-frame">
<header className="terminal-topbar">
<FeedStatusBar />
<div className="terminal-topbar-actions">
<div className="terminal-topbar-controls">
<label className="terminal-filter">
<span className="terminal-filter-label">Filter</span>
<span className="terminal-filter-field">
<input
className="terminal-input"
value={state.filterInput}
onChange={(event) => state.setFilterInput(event.target.value)}
placeholder="SPY, NVDA, AAPL"
spellCheck={false}
/>
</span>
</label>
<button
className="terminal-button"
type="button"
onClick={() => state.setFilterInput("")}
disabled={state.filterInput.trim().length === 0}
>
Clear
</button>
</div>
<div className="terminal-topbar-mode">
<button
className="terminal-button terminal-button-primary"
type="button"
onClick={state.toggleMode}
>
{state.mode === "live" ? "Replay" : "Live"}
</button>
</div>
</div>
</header>
<main className="terminal-content">{children}</main>
</div>
{state.selectedAlert ? (
<AlertDrawer
alert={state.selectedAlert}
flowPacket={state.selectedFlowPacket}
evidence={state.selectedEvidence}
onClose={() => state.setSelectedAlert(null)}
/>
) : null}
{state.selectedClassifierHit ? (
<ClassifierHitDrawer
hit={state.selectedClassifierHit}
flowPacket={state.selectedClassifierFlowPacket}
evidence={state.selectedClassifierEvidence}
onClose={() => state.setSelectedClassifierHit(null)}
/>
) : null}
{state.selectedDarkEvent ? (
<DarkDrawer
event={state.selectedDarkEvent}
evidence={state.selectedDarkEvidence}
underlying={state.selectedDarkUnderlying}
onClose={() => state.setSelectedDarkEvent(null)}
/>
) : null}
</div>
</TerminalContext.Provider>
);
}
export function OverviewRoute() {
return (
<PageFrame title="Overview">
<OverviewBrief />
<div className="page-grid page-grid-overview">
<ChartPane />
<AlertsPane limit={12} withStrip />
<FlowPane limit={12} />
<EquitiesPane limit={12} />
</div>
</PageFrame>
);
}
export function TapeRoute() {
return (
<PageFrame title="Tape">
<div className="page-grid page-grid-tape">
<OptionsPane />
<EquitiesPane />
<FlowPane title="Packets" />
</div>
</PageFrame>
);
}
export function SignalsRoute() {
return (
<PageFrame title="Signals">
<div className="page-grid page-grid-signals">
<AlertsPane withStrip />
<ClassifierPane />
<DarkPane />
</div>
</PageFrame>
);
}
export function ChartsRoute() {
return (
<PageFrame title="Charts">
<div className="page-grid page-grid-charts">
<ChartPane title="Price" />
<FocusPane />
</div>
</PageFrame>
);
}
export function ReplayRoute() {
return (
<PageFrame title="Replay">
<div className="page-grid page-grid-replay">
<ReplayConsole />
<AlertsPane limit={10} withStrip />
<FlowPane limit={12} />
<OptionsPane limit={12} />
</div>
</PageFrame>
);
}
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